ci: re-enable zig master builds on CI

chore: update dependencies
chore: simply some zig fmt builtin changes
2023-07-17 01:11:57 -05:00 · 2023-07-17 01:09:54 -05:00 · 2023-07-17 01:09:54 -05:00 · 2023-07-10 22:09:48 -05:00 · 2023-06-25 18:56:56 -05:00 · 2023-06-21 18:30:19 -05:00
67 changed files with 4904 additions and 5664 deletions
--- a/.github/workflows/main.yml
+++ b/.github/workflows/main.yml
@@ -15,6 +15,7 @@ jobs:
    strategy:
      matrix:
        os: [ubuntu-latest, windows-latest, macos-latest]
        # os: [ubuntu-latest, windows-latest]
    runs-on: ${{matrix.os}}
    steps:
      - uses: goto-bus-stop/setup-zig@v2
@@ -23,8 +24,8 @@ jobs:
      - name: prepare-linux
        if: runner.os == 'Linux'
        run: |
-            sudo apt-get update
+            sudo apt update
-            sudo apt-get install libsdl2-dev
+            sudo apt install libgtk-3-dev libsdl2-dev
      - name: prepare-windows
        if: runner.os == 'Windows'
        run: |
@@ -37,9 +38,12 @@ jobs:
            brew install sdl2
      - uses: actions/checkout@v3
        with:
-          submodules: true
+          submodules: recursive
      - name: build 
-        run: zig build -Drelease-safe
+        run: zig build -Doptimize=ReleaseSafe -Dcpu=baseline
      - name: prepare-executable
        run: |
            mv zig-out/lib/* zig-out/bin
      - name: upload
        uses: actions/upload-artifact@v3
        with:
@@ -50,9 +54,9 @@ jobs:
    steps: 
      - uses: actions/checkout@v3
        with:
-          submodules: true
+          submodules: recursive
      - uses: goto-bus-stop/setup-zig@v2
        with:
-          version: master
+          version: 0.11.0-dev.3395+1e7dcaa3a
      - run: zig fmt src/**/*.zig
--- a/.gitignore
+++ b/.gitignore
@@ -11,4 +11,8 @@
 /lib/SDL2
 # Any Custom Scripts for Debugging purposes
-*.sh
+*.sh
 # Dear ImGui
 **/imgui.ini
--- a/.gitmodules
+++ b/.gitmodules
@@ -1,15 +1,6 @@
 [submodule "lib/SDL.zig"]
 	path = lib/SDL.zig
 	url = https://github.com/MasterQ32/SDL.zig
-[submodule "lib/zig-clap"]
+[submodule "lib/zgui"]
-	path = lib/zig-clap
+	path = lib/zgui
-	url = https://github.com/Hejsil/zig-clap
+	url = https://git.musuka.dev/paoda/zgui
 [submodule "lib/known-folders"]
 	path = lib/known-folders
 	url = https://github.com/ziglibs/known-folders
 [submodule "lib/zig-datetime"]
 	path = lib/zig-datetime
 	url = https://github.com/frmdstryr/zig-datetime
 [submodule "lib/zig-toml"]
 	path = lib/zig-toml
 	url = https://github.com/aeronavery/zig-toml
--- a/.vscode/extensions.json
+++ b/.vscode/extensions.json
@@ -1,8 +0,0 @@
 {
    "recommendations": [
        "augusterame.zls-vscode",
        "usernamehw.errorlens",
        "vadimcn.vscode-lldb",
        "dan-c-underwood.arm"
    ]
 }
--- a/README.md
+++ b/README.md
@@ -2,6 +2,8 @@
 A Game Boy Advance Emulator written in Zig ⚡!
 ![ZBA running リズム天国](assets/screenshot.png)
 ## Scope
 I'm hardly the first to write a Game Boy Advance Emulator nor will I be the last. This project isn't going to compete with the GOATs like [mGBA](https://github.com/mgba-emu) or [NanoBoyAdvance](https://github.com/nba-emu/NanoBoyAdvance). There aren't any interesting ideas either like in [DSHBA](https://github.com/DenSinH/DSHBA).
@@ -10,63 +12,81 @@ This is a simple (read: incomplete) for-fun long-term project. I hope to get "mo
 ### TODO
- [ ] Affine Sprites
+- [x] Affine Sprites
 - [ ] Windowing (see [this branch](https://git.musuka.dev/paoda/zba/src/branch/window))
 - [ ] Audio Resampler (Having issues with SDL2's)
 - [ ] Immediate Mode GUI
 - [ ] Refactoring for easy-ish perf boosts
 ## Usage
-As it currently exists, ZBA is run from the terminal. In your console of choice, type `./zba --help` to see what you can do.
+ZBA supports both a CLI and a GUI. If running from the terminal, try using `zba --help` to see what you can do. If you want to use the GUI, feel free to just run `zba` without any arguments.
-I typically find myself typing `./zba -b ./bin/bios.bin ./bin/test/suite.gba` to see how badly my "cool new feature" broke everything else.
+ZBA does not feature any BIOS HLE, so providing one will be necessary if a ROM makes use of it. Need one? Why not try using the open-source [Cult-Of-GBA BIOS](https://github.com/Cult-of-GBA/BIOS) written by [fleroviux](https://github.com/fleroviux) and [DenSinH](https://github.com/DenSinH)?
 Need a BIOS? Why not try using the open-source [Cult-Of-GBA BIOS](https://github.com/Cult-of-GBA/BIOS) written by [fleroviux](https://github.com/fleroviux) and [DenSinH](https://github.com/DenSinH)?
 Finally it's worth noting that ZBA uses a TOML config file it'll store in your OS's data directory. See `example.toml` to learn about the defaults and what exactly you can mess around with.
 ## Compiling
 Most recently built on Zig [v0.11.0-dev.3395+1e7dcaa3a](https://github.com/ziglang/zig/tree/1e7dcaa3a)
 ### Dependencies
 Dependency | Source
 --- | ---
 known-folders | <https://github.com/ziglibs/known-folders>
 nfd-zig | <https://github.com/fabioarnold/nfd-zig>
 SDL.zig | <https://github.com/MasterQ32/SDL.zig>
 tomlz | <https://github.com/mattyhall/tomlz>
 zba-gdbstub | <https://github.com/paoda/zba-gdbstub>
 zba-util | <https://git.musuka.dev/paoda/zba-util>
 zgui | <https://github.com/michal-z/zig-gamedev/tree/main/libs/zgui>
 zig-clap | <https://github.com/Hejsil/zig-clap>
 zig-datetime | <https://github.com/frmdstryr/zig-datetime>
 `bitfield.zig` | [https://github.com/FlorenceOS/Florence](https://github.com/FlorenceOS/Florence/blob/aaa5a9e568/lib/util/bitfields.zig)
 `gl.zig` | <https://github.com/MasterQ32/zig-opengl>
 Use `git submodule update --init` from the project root to pull the git relevant git submodules
 Be sure to provide SDL2 using:
 - Linux: Your distro's package manager
 - macOS: ¯\\\_(ツ)_/¯ (try [this formula](https://formulae.brew.sh/formula/sdl2)?)
 - Windows: [`vcpkg`](https://github.com/Microsoft/vcpkg) (install `sdl2:x64-windows`)
 `SDL.zig` will provide a helpful compile error if the zig compiler is unable to find SDL2.
 Once you've got all the dependencies, execute `zig build -Doptimize=ReleaseSafe`. The executable will be under `zig-out/bin` and the shared libraries (if enabled) under `zig-out/lib`. If working with shared libraries on windows, be sure to add all artifacts to the same directory. On Unix, you'll want to make use of `LD_PRELOAD`.
 ## Controls
 Key | Button | | Key | Button
 --- | --- | --- | --- | ---
 <kbd>A</kbd> | L | | <kbd>S</kbd> | R
 <kbd>X</kbd> | A | | <kbd>Z</kbd> | B
 <kbd>Return</kbd> | Start | | <kbd>RShift</kbd> | Select
 Arrow Keys | D-Pad
 ## Tests
-GBA Tests | [jsmolka](https://github.com/jsmolka/)
+GBA Tests | [jsmolka](https://github.com/jsmolka/) | gba_tests | [destoer](https://github.com/destoer/)
--- | ---
+--- | --- | --- | ---
-`arm.gba`,  `thumb.gba` | PASS
+`arm.gba`,  `thumb.gba` | PASS | `cond_invalid.gba` | PASS
-`memory.gba`, `bios.gba` | PASS
+`memory.gba`, `bios.gba` | PASS | `dma_priority.gba` | PASS
-`flash64.gba`, `flash128.gba` | PASS
+`flash64.gba`, `flash128.gba` | PASS | `hello_world.gba` | PASS
-`sram.gba` | PASS
+`sram.gba` | PASS | `if_ack.gba` | PASS
-`none.gba` | PASS
+`none.gba` | PASS | `line_timing.gba` | FAIL
-`hello.gba`, `shades.gba`, `stripes.gba` | PASS
+`hello.gba`, `shades.gba`, `stripes.gba` | PASS | `lyc_midline.gba` | FAIL
-`nes.gba` | PASS
+`nes.gba` | PASS | `window_midframe.gba` | FAIL
-GBARoms | [DenSinH](https://github.com/DenSinH/)
+GBARoms | [DenSinH](https://github.com/DenSinH/) | GBA Test Collection | [ladystarbreeze](https://github.com/ladystarbreeze)
--- | ---
+--- | --- | --- | ---
-`eeprom-test`, `flash-test` | PASS
+`eeprom-test`, `flash-test` | PASS | `retAddr.gba` | PASS
-`midikey2freq` | PASS
+`midikey2freq` | PASS | `helloWorld.gba` | PASS
-`swi-tests-random` | FAIL
+`swi-tests-random` | FAIL | `helloAudio.gba` | PASS
-gba_tests | [destoer](https://github.com/destoer/)
+FuzzARM | [DenSinH](https://github.com/DenSinH/) |  arm7wrestler GBA Fixed | [destoer](https://github.com/destoer)
--- | ---
+--- | --- | --- | ---
-`cond_invalid.gba` | PASS
+`main.gba` | PASS | `armwrestler-gba-fixed.gba` | PASS
 `dma_priority.gba` | PASS
 `hello_world.gba` | PASS
 `if_ack.gba` | PASS
 `line_timing.gba` | FAIL
 `lyc_midline.gba` | FAIL
 `window_midframe.gba` | FAIL
 GBA Test Collection | [ladystarbreeze](https://github.com/ladystarbreeze)
 --- | ---
 `retAddr.gba` | PASS
 `helloWorld.gba` | PASS
 `helloAudio.gba` | PASS
 FuzzARM | [DenSinH](https://github.com/DenSinH/)
 --- | ---
 `main.gba` | PASS
 arm7wrestler GBA Fixed | [destoer](https://github.com/destoer)
 --- | ---
 `armwrestler-gba-fixed.gba` | PASS
 ## Resources
@@ -74,43 +94,3 @@ arm7wrestler GBA Fixed | [destoer](https://github.com/destoer)
 - [TONC](https://coranac.com/tonc/text/toc.htm)
 - [ARM Architecture Reference Manual](https://www.intel.com/content/dam/www/programmable/us/en/pdfs/literature/third-party/ddi0100e_arm_arm.pdf)
 - [ARM7TDMI Data Sheet](https://www.dca.fee.unicamp.br/cursos/EA871/references/ARM/ARM7TDMIDataSheet.pdf)
 ## Compiling
 Most recently built on Zig [0.11.0-dev.368+1829b6eab](https://github.com/ziglang/zig/tree/1829b6eab)
 ### Dependencies
 Dependency | Source
 --- | ---
 SDL.zig | <https://github.com/MasterQ32/SDL.zig>
 zig-clap | <https://github.com/Hejsil/zig-clap>
 known-folders | <https://github.com/ziglibs/known-folders>
 zig-toml | <https://github.com/aeronavery/zig-toml>
 zig-datetime | <https://github.com/frmdstryr/zig-datetime>
 `bitfields.zig` | [https://github.com/FlorenceOS/Florence](https://github.com/FlorenceOS/Florence/blob/aaa5a9e568/lib/util/bitfields.zig)
 `gl.zig` | <https://github.com/MasterQ32/zig-opengl>
 Use `git submodule update --init` from the project root to pull the git submodules `SDL.zig`, `zig-clap`, `known-folders`, `zig-toml` and `zig-datetime`
 Be sure to provide SDL2 using:
 - Linux: Your distro's package manager
 - MacOS: ¯\\\_(ツ)_/¯
 - Windows: [`vcpkg`](https://github.com/Microsoft/vcpkg) (install `sdl2:x64-windows`)
 `SDL.zig` will provide a helpful compile error if the zig compiler is unable to find SDL2.
 Once you've got all the dependencies, execute `zig build -Drelease-fast`. The executable is located at `zig-out/bin/`.
 ## Controls
 Key | Button
 --- | ---
 <kbd>X</kbd> | A
 <kbd>Z</kbd> | B
 <kbd>A</kbd> | L
 <kbd>S</kbd> | R
 <kbd>Return</kbd> | Start
 <kbd>RShift</kbd> | Select
 Arrow Keys | D-Pad
--- a/assets/screenshot.png
+++ b/assets/screenshot.png
--- a/build.zig
+++ b/build.zig
@@ -1,57 +1,58 @@
 const std = @import("std");
 const builtin = @import("builtin");
 const Sdk = @import("lib/SDL.zig/Sdk.zig");
-pub fn build(b: *std.build.Builder) void {
+const Sdk = @import("lib/SDL.zig/Sdk.zig");
 const zgui = @import("lib/zgui/build.zig");
 pub fn build(b: *std.Build) void {
    // Minimum Zig Version
-    const min_ver = std.SemanticVersion.parse("0.11.0-dev.323+30eb2a175") catch return; // https://github.com/ziglang/zig/commit/30eb2a175
+    const min_ver = std.SemanticVersion.parse("0.11.0-dev.3395+1e7dcaa3a") catch return; // https://github.com/ziglang/zig/commit/34865d693
    if (builtin.zig_version.order(min_ver).compare(.lt)) {
        std.log.err("{s}", .{b.fmt("Zig v{} does not meet the minimum version requirement. (Zig v{})", .{ builtin.zig_version, min_ver })});
        std.os.exit(1);
    }
    // Standard target options allows the person running `zig build` to choose
    // what target to build for. Here we do not override the defaults, which
    // means any target is allowed, and the default is native. Other options
    // for restricting supported target set are available.
    const target = b.standardTargetOptions(.{});
    const optimize = b.standardOptimizeOption(.{});
-    // Standard release options allow the person running `zig build` to select
+    const exe = b.addExecutable(.{
-    // between Debug, ReleaseSafe, ReleaseFast, and ReleaseSmall.
+        .name = "zba",
-    const mode = b.standardReleaseOptions();
+        .root_source_file = .{ .path = "src/main.zig" },
        .target = target,
        .optimize = optimize,
    });
    const exe = b.addExecutable("zba", "src/main.zig");
    exe.setMainPkgPath("."); // Necessary so that src/main.zig can embed example.toml
    exe.setTarget(target);
-    // Known Folders (%APPDATA%, XDG, etc.)
+    exe.addModule("known_folders", b.dependency("known-folders", .{}).module("known-folders")); // https://github.com/ziglibs/known-folders
-    exe.addPackagePath("known_folders", "lib/known-folders/known-folders.zig");
+    exe.addModule("datetime", b.dependency("zig-datetime", .{}).module("zig-datetime")); // https://github.com/frmdstryr/zig-datetime
    exe.addModule("clap", b.dependency("zig-clap", .{}).module("clap")); // https://github.com/Hejsil/zig-clap
    exe.addModule("gdbstub", b.dependency("zba-gdbstub", .{}).module("gdbstub")); // https://git.musuka.dev/paoda/zba-gdbstub
    exe.addModule("zba-util", b.dependency("zba-util", .{}).module("zba-util")); // https://git.musuka.dev/paoda/zba-util
    exe.addModule("tomlz", b.dependency("tomlz", .{}).module("tomlz")); // https://github.com/mattyhall/tomlz
    exe.addModule("arm32", b.dependency("arm32", .{}).module("arm32")); // https://git.musuka.dev/paoda/arm32
-    // DateTime Library
+    // https://github.com/fabioarnold/nfd-zig
-    exe.addPackagePath("datetime", "lib/zig-datetime/src/main.zig");
+    const nfd_dep = b.dependency("nfd", .{ .target = target, .optimize = optimize });
    exe.linkLibrary(nfd_dep.artifact("nfd"));
    exe.addModule("nfd", nfd_dep.module("nfd"));
-    // Bitfield type from FlorenceOS: https://github.com/FlorenceOS/
+    // https://github.com/MasterQ32/SDL.zig
-    // exe.addPackage(.{ .name = "bitfield", .path = .{ .path = "lib/util/bitfield.zig" } });
+    const sdk = Sdk.init(b, null);
    exe.addPackagePath("bitfield", "lib/util/bitfield.zig");
    // Argument Parsing Library
    exe.addPackagePath("clap", "lib/zig-clap/clap.zig");
    // TOML Library
    exe.addPackagePath("toml", "lib/zig-toml/src/toml.zig");
    // OpenGL 3.3 Bindings
    exe.addPackagePath("gl", "lib/gl.zig");
    // Zig SDL Bindings: https://github.com/MasterQ32/SDL.zig
    const sdk = Sdk.init(b);
    sdk.link(exe, .dynamic);
-    exe.addPackage(sdk.getNativePackage("sdl2"));
+    exe.addModule("sdl2", sdk.getNativeModule());
-    exe.setBuildMode(mode);
+    // https://git.musuka.dev/paoda/zgui
-    exe.install();
+    // .shared option should stay in sync with SDL.zig call above where true == .dynamic, and false == .static
    const zgui_pkg = zgui.package(b, target, optimize, .{ .options = .{ .backend = .sdl2_opengl3, .shared = true } });
    zgui_pkg.link(exe);
-    const run_cmd = exe.run();
+    exe.addAnonymousModule("bitfield", .{ .source_file = .{ .path = "lib/bitfield.zig" } }); // https://github.com/FlorenceOS/
    exe.addAnonymousModule("gl", .{ .source_file = .{ .path = "lib/gl.zig" } }); // https://github.com/MasterQ32/zig-opengl
    b.installArtifact(exe);
    const run_cmd = b.addRunArtifact(exe);
    run_cmd.step.dependOn(b.getInstallStep());
    if (b.args) |args| {
        run_cmd.addArgs(args);
@@ -60,9 +61,11 @@ pub fn build(b: *std.build.Builder) void {
    const run_step = b.step("run", "Run the app");
    run_step.dependOn(&run_cmd.step);
-    const exe_tests = b.addTest("src/main.zig");
+    const exe_tests = b.addTest(.{
-    exe_tests.setTarget(target);
+        .root_source_file = .{ .path = "src/main.zig" },
-    exe_tests.setBuildMode(mode);
+        .target = target,
        .optimize = optimize,
    });
    const test_step = b.step("test", "Run unit tests");
    test_step.dependOn(&exe_tests.step);
--- a/build.zig.zon
+++ b/build.zig.zon
@@ -0,0 +1,38 @@
 .{
    .name = "zba",
    .version = "0.1.0",
    .dependencies = .{
        .nfd = .{
            .url = "https://github.com/fabioarnold/nfd-zig/archive/ae6df5e13f1013cee66929d934d34225b7bbb372.tar.gz",
            .hash = "122040d748f2fed10c4786077ef2b6edbe65ab15c741a6450befab5867e3f828eb24",
        },
        .@"known-folders" = .{
            .url = "https://github.com/ziglibs/known-folders/archive/03b70c3179e404c0d03b5480ddda52d4e0c8b744.tar.gz",
            .hash = "1220480ebdabd57a5aa79889239c7f353a76a83a0185cced414589cf7bae29fcd272",
        },
        .@"zig-datetime" = .{
            .url = "https://github.com/frmdstryr/zig-datetime/archive/ddecb4e508e99ad6ab1314378225413959d54756.tar.gz",
            .hash = "12202cbb909feb6b09164ac997307c6b1ab35cb05a846198cf41f7ec608d842c1761",
        },
        .@"zig-clap" = .{
            .url = "https://github.com/Hejsil/zig-clap/archive/bdb5853b678d68f342ec65b04a6785af522ca6c9.tar.gz",
            .hash = "12202af04ec78191f2018458a7be29f54e0d9118f7688e7a226857acf754d68b8473",
        },
        .@"zba-gdbstub" = .{
            .url = "https://git.musuka.dev/paoda/zba-gdbstub/archive/dc159b4aebfa4a6dbafcd0ad0006ee9fe53a8bad.tar.gz",
            .hash = "122021a32734d559087b912c72be759709d7f57758d747b2ae0176e88a7a3bf39ad6",
        },
        .@"zba-util" = .{
            .url = "https://git.musuka.dev/paoda/zba-util/archive/322c798e384a0d24cc84ffcfa2e4a3ca807798a0.tar.gz",
            .hash = "12209ce0e729460b997706e47a53a32f1842672cd120189e612f4871731780a30ed0",
        },
        .tomlz = .{
            .url = "https://github.com/mattyhall/tomlz/archive/1a6f112183fa04ec88b2cab2a2e71cb1f8a40dd1.tar.gz",
            .hash = "122098fcc1a1699303f7207d7ca3528750a972d927be2942eef4cd454ee52036650d",
        },
        .arm32 = .{
            .url = "https://git.musuka.dev/paoda/arm32/archive/6c81608c5914888858abea56514707712d64272a.tar.gz",
            .hash = "1220b305f4ecba1918479e60dbe31c99f7763a0ce3883e7dcf30d24e0dc11f44a9c9",
        },
    },
 }
--- a/example.toml
+++ b/example.toml
@@ -1,4 +1,4 @@
-[Host]
+[host]
 # Using nearest-neighbour scaling, how many times the native resolution 
 # of the game bow should the screen be?
 win_scale = 3
@@ -7,7 +7,7 @@ vsync = true
 # Mute ZBA
 mute = false
-[Guest]
+[guest]
 # Sync Emulation to Audio 
 audio_sync = true
 # Sync Emulation to Video
@@ -17,7 +17,7 @@ force_rtc = false
 # Skip BIOS
 skip_bios = false
-[Debug]
+[debug]
 # Enable detailed CPU logs
 cpu_trace = false
 # When false and builtin.mode == .Debug, ZBA will panic
--- a/lib/SDL.zig
+++ b/lib/SDL.zig
--- a/lib/util/bitfield.zig
+++ b/lib/util/bitfield.zig
@@ -26,13 +26,13 @@ fn BitType(comptime FieldType: type, comptime ValueType: type, comptime shamt: u
        }
        pub fn read(self: anytype) ValueType {
-            return @bitCast(ValueType, @truncate(u1, self.bits.field().* >> shamt));
+            return @bitCast(@as(u1, @truncate(self.bits.field().* >> shamt)));
        }
        // Since these are mostly used with MMIO, I want to avoid
        // reading the memory just to write it again, also races
        pub fn write(self: anytype, val: ValueType) void {
-            if (@bitCast(bool, val)) {
+            if (@as(bool, @bitCast(val))) {
                self.set();
            } else {
                self.unset();
@@ -67,17 +67,17 @@ pub fn Bitfield(comptime FieldType: type, comptime shamt: usize, comptime num_bi
        dummy: FieldType,
        fn field(self: anytype) PtrCastPreserveCV(@This(), @TypeOf(self), FieldType) {
-            return @ptrCast(PtrCastPreserveCV(@This(), @TypeOf(self), FieldType), self);
+            return @ptrCast(self);
        }
        pub fn write(self: anytype, val: ValueType) void {
            self.field().* &= ~self_mask;
-            self.field().* |= @intCast(FieldType, val) << shamt;
+            self.field().* |= @as(FieldType, @intCast(val)) << shamt;
        }
        pub fn read(self: anytype) ValueType {
            const val: FieldType = self.field().*;
-            return @intCast(ValueType, (val & self_mask) >> shamt);
+            return @intCast((val & self_mask) >> shamt);
        }
    };
 }
--- a/lib/gl.zig
+++ b/lib/gl.zig
--- a/lib/known-folders
+++ b/lib/known-folders
--- a/lib/zgui
+++ b/lib/zgui
--- a/lib/zig-clap
+++ b/lib/zig-clap
--- a/lib/zig-datetime
+++ b/lib/zig-datetime
--- a/lib/zig-toml
+++ b/lib/zig-toml
--- a/src/config.zig
+++ b/src/config.zig
@@ -1,5 +1,5 @@
 const std = @import("std");
-const toml = @import("toml");
+const tomlz = @import("tomlz");
 const Allocator = std.mem.Allocator;
@@ -7,6 +7,7 @@ const log = std.log.scoped(.Config);
 var state: Config = .{};
 const Config = struct {
    // FIXME: tomlz expects these to be case sensitive
    host: Host = .{},
    guest: Guest = .{},
    debug: Debug = .{},
@@ -58,29 +59,5 @@ pub fn load(allocator: Allocator, file_path: []const u8) !void {
    const contents = try config_file.readToEndAlloc(allocator, try config_file.getEndPos());
    defer allocator.free(contents);
-    var parser = try toml.parseFile(allocator, file_path);
+    state = try tomlz.parser.decode(Config, allocator, contents);
    defer parser.deinit();
    const table = try parser.parse();
    defer table.deinit();
    // TODO: Report unknown config options
    if (table.keys.get("Host")) |host| {
        if (host.Table.keys.get("win_scale")) |scale| state.host.win_scale = scale.Integer;
        if (host.Table.keys.get("vsync")) |vsync| state.host.vsync = vsync.Boolean;
        if (host.Table.keys.get("mute")) |mute| state.host.mute = mute.Boolean;
    }
    if (table.keys.get("Guest")) |guest| {
        if (guest.Table.keys.get("audio_sync")) |sync| state.guest.audio_sync = sync.Boolean;
        if (guest.Table.keys.get("video_sync")) |sync| state.guest.video_sync = sync.Boolean;
        if (guest.Table.keys.get("force_rtc")) |forced| state.guest.force_rtc = forced.Boolean;
        if (guest.Table.keys.get("skip_bios")) |skip| state.guest.skip_bios = skip.Boolean;
    }
    if (table.keys.get("Debug")) |debug| {
        if (debug.Table.keys.get("cpu_trace")) |trace| state.debug.cpu_trace = trace.Boolean;
        if (debug.Table.keys.get("unhandled_io")) |unhandled| state.debug.unhandled_io = unhandled.Boolean;
    }
 }
--- a/src/core/Bus.zig
+++ b/src/core/Bus.zig
@@ -1,6 +1,6 @@
 const std = @import("std");
-const Arm7tdmi = @import("cpu.zig").Arm7tdmi;
+const Arm7tdmi = @import("arm32").Arm7tdmi;
 const Bios = @import("bus/Bios.zig");
 const Ewram = @import("bus/Ewram.zig");
 const GamePak = @import("bus/GamePak.zig");
@@ -19,7 +19,7 @@ const log = std.log.scoped(.Bus);
 const createDmaTuple = @import("bus/dma.zig").create;
 const createTimerTuple = @import("bus/timer.zig").create;
-const rotr = @import("../util.zig").rotr;
+const rotr = @import("zba-util").rotr;
 const timings: [2][0x10]u8 = [_][0x10]u8{
    // BIOS, Unused, EWRAM, IWRAM, I/0, PALRAM, VRAM, OAM, ROM0, ROM0, ROM1, ROM1, ROM2, ROM2, SRAM, Unused
@@ -60,9 +60,8 @@ allocator: Allocator,
 pub fn init(self: *Self, allocator: Allocator, sched: *Scheduler, cpu: *Arm7tdmi, paths: FilePaths) !void {
    const tables = try allocator.alloc(?*anyopaque, 3 * table_len); // Allocate all tables
-    const read_table: *[table_len]?*const anyopaque = tables[0..table_len];
+    const read_table = tables[0..table_len];
-    const left_write: *[table_len]?*anyopaque = tables[table_len .. 2 * table_len];
+    const write_tables = .{ tables[table_len .. 2 * table_len], tables[2 * table_len .. 3 * table_len] };
    const right_write: *[table_len]?*anyopaque = tables[2 * table_len .. 3 * table_len];
    self.* = .{
        .pak = try GamePak.init(allocator, cpu, paths.rom, paths.save),
@@ -78,18 +77,15 @@ pub fn init(self: *Self, allocator: Allocator, sched: *Scheduler, cpu: *Arm7tdmi
        .sched = sched,
        .read_table = read_table,
-        .write_tables = .{ left_write, right_write },
+        .write_tables = write_tables,
        .allocator = allocator,
    };
-    // read_table, write_tables, and *Self are not restricted to the lifetime
+    self.fillReadTable(read_table);
    // of this init function so we can initialize our tables here
    fillReadTable(self, read_table);
-    // Internal Display Memory behavious unusually on 8-bit reads
+    // Internal Display Memory behaves differently on 8-bit reads
-    // so we have two different tables depending on whether there's an 8-bit read or not
+    self.fillWriteTable(u32, write_tables[0]);
-    fillWriteTable(u32, self, left_write);
+    self.fillWriteTable(u8, write_tables[1]);
    fillWriteTable(u8, self, right_write);
 }
 pub fn deinit(self: *Self) void {
@@ -102,54 +98,95 @@ pub fn deinit(self: *Self) void {
    // This is so I can deallocate the original `allocator.alloc`. I have to re-make the type
    // since I'm not keeping it around, This is very jank and bad though
    // FIXME: please figure out another way
-    self.allocator.free(@ptrCast([*]const ?*anyopaque, self.read_table[0..])[0 .. 3 * table_len]);
+    self.allocator.free(@as([*]const ?*anyopaque, @ptrCast(self.read_table[0..]))[0 .. 3 * table_len]);
    self.* = undefined;
 }
-fn fillReadTable(bus: *Self, table: *[table_len]?*const anyopaque) void {
+pub fn reset(self: *Self) void {
-    const vramMirror = @import("ppu.zig").Vram.mirror;
+    self.bios.reset();
    self.ppu.reset();
    self.apu.reset();
    self.iwram.reset();
    self.ewram.reset();
-    for (table) |*ptr, i| {
+    // https://github.com/ziglang/zig/issues/14705
-        const addr = page_size * i;
+    {
        comptime var i: usize = 0;
        inline while (i < self.dma.len) : (i += 1) {
            self.dma[0].reset();
        }
    }
    // https://github.com/ziglang/zig/issues/14705
    {
        comptime var i: usize = 0;
        inline while (i < self.tim.len) : (i += 1) {
            self.tim[0].reset();
        }
    }
    self.io.reset();
 }
 pub fn replaceGamepak(self: *Self, file_path: []const u8) !void {
    // Note: `save_path` isn't owned by `Backup`
    const save_path = self.pak.backup.save_path;
    self.pak.deinit();
    self.pak = try GamePak.init(self.allocator, self.cpu, file_path, save_path);
    const read_ptr: *[table_len]?*const anyopaque = @constCast(self.read_table);
    const write_ptrs: [2]*[table_len]?*anyopaque = .{ @constCast(self.write_tables[0]), @constCast(self.write_tables[1]) };
    self.fillReadTable(read_ptr);
    self.fillWriteTable(u32, write_ptrs[0]);
    self.fillWriteTable(u8, write_ptrs[1]);
 }
 fn fillReadTable(self: *Self, table: *[table_len]?*const anyopaque) void {
    const vramMirror = @import("ppu/Vram.zig").mirror;
    for (table, 0..) |*ptr, i| {
        const addr: u32 = @intCast(page_size * i);
        ptr.* = switch (addr) {
            // General Internal Memory
            0x0000_0000...0x0000_3FFF => null, // BIOS has it's own checks
-            0x0200_0000...0x02FF_FFFF => &bus.ewram.buf[addr & 0x3FFFF],
+            0x0200_0000...0x02FF_FFFF => &self.ewram.buf[addr & 0x3FFFF],
-            0x0300_0000...0x03FF_FFFF => &bus.iwram.buf[addr & 0x7FFF],
+            0x0300_0000...0x03FF_FFFF => &self.iwram.buf[addr & 0x7FFF],
            0x0400_0000...0x0400_03FF => null, // I/O
            // Internal Display Memory
-            0x0500_0000...0x05FF_FFFF => &bus.ppu.palette.buf[addr & 0x3FF],
+            0x0500_0000...0x05FF_FFFF => &self.ppu.palette.buf[addr & 0x3FF],
-            0x0600_0000...0x06FF_FFFF => &bus.ppu.vram.buf[vramMirror(addr)],
+            0x0600_0000...0x06FF_FFFF => &self.ppu.vram.buf[vramMirror(addr)],
-            0x0700_0000...0x07FF_FFFF => &bus.ppu.oam.buf[addr & 0x3FF],
+            0x0700_0000...0x07FF_FFFF => &self.ppu.oam.buf[addr & 0x3FF],
            // External Memory (Game Pak)
-            0x0800_0000...0x0DFF_FFFF => fillTableExternalMemory(bus, addr),
+            0x0800_0000...0x0DFF_FFFF => self.fillReadTableExternal(addr),
            0x0E00_0000...0x0FFF_FFFF => null, // SRAM
            else => null,
        };
    }
 }
-fn fillWriteTable(comptime T: type, bus: *Self, table: *[table_len]?*const anyopaque) void {
+fn fillWriteTable(self: *Self, comptime T: type, table: *[table_len]?*const anyopaque) void {
    comptime std.debug.assert(T == u32 or T == u16 or T == u8);
-    const vramMirror = @import("ppu.zig").Vram.mirror;
+    const vramMirror = @import("ppu/Vram.zig").mirror;
-    for (table) |*ptr, i| {
+    for (table, 0..) |*ptr, i| {
-        const addr = page_size * i;
+        const addr: u32 = @intCast(page_size * i);
        ptr.* = switch (addr) {
            // General Internal Memory
            0x0000_0000...0x0000_3FFF => null, // BIOS has it's own checks
-            0x0200_0000...0x02FF_FFFF => &bus.ewram.buf[addr & 0x3FFFF],
+            0x0200_0000...0x02FF_FFFF => &self.ewram.buf[addr & 0x3FFFF],
-            0x0300_0000...0x03FF_FFFF => &bus.iwram.buf[addr & 0x7FFF],
+            0x0300_0000...0x03FF_FFFF => &self.iwram.buf[addr & 0x7FFF],
            0x0400_0000...0x0400_03FF => null, // I/O
            // Internal Display Memory
-            0x0500_0000...0x05FF_FFFF => if (T != u8) &bus.ppu.palette.buf[addr & 0x3FF] else null,
+            0x0500_0000...0x05FF_FFFF => if (T != u8) &self.ppu.palette.buf[addr & 0x3FF] else null,
-            0x0600_0000...0x06FF_FFFF => if (T != u8) &bus.ppu.vram.buf[vramMirror(addr)] else null,
+            0x0600_0000...0x06FF_FFFF => if (T != u8) &self.ppu.vram.buf[vramMirror(addr)] else null,
-            0x0700_0000...0x07FF_FFFF => if (T != u8) &bus.ppu.oam.buf[addr & 0x3FF] else null,
+            0x0700_0000...0x07FF_FFFF => if (T != u8) &self.ppu.oam.buf[addr & 0x3FF] else null,
            // External Memory (Game Pak)
            0x0800_0000...0x0DFF_FFFF => null, // ROM
@@ -159,24 +196,29 @@ fn fillWriteTable(comptime T: type, bus: *Self, table: *[table_len]?*const anyop
    }
 }
-fn fillTableExternalMemory(bus: *Self, addr: usize) ?*anyopaque {
+fn fillReadTableExternal(self: *Self, addr: u32) ?*anyopaque {
    // see `GamePak.zig` for more information about what conditions need to be true
    // so that a simple pointer dereference isn't possible
    std.debug.assert(addr & @as(u32, page_size - 1) == 0); // addr is guaranteed to be page-aligned
    const start_addr = addr;
-    const end_addr = addr + page_size;
+    const end_addr = start_addr + page_size;
-    const gpio_data = start_addr <= 0x0800_00C4 and 0x0800_00C4 < end_addr;
+    {
-    const gpio_direction = start_addr <= 0x0800_00C6 and 0x0800_00C6 < end_addr;
+        const data = start_addr <= 0x0800_00C4 and 0x0800_00C4 < end_addr; // GPIO Data
-    const gpio_control = start_addr <= 0x0800_00C8 and 0x0800_00C8 < end_addr;
+        const direction = start_addr <= 0x0800_00C6 and 0x0800_00C6 < end_addr; // GPIO Direction
        const control = start_addr <= 0x0800_00C8 and 0x0800_00C8 < end_addr; // GPIO Control
-    if (bus.pak.gpio.device.kind != .None and (gpio_data or gpio_direction or gpio_control)) {
+        const has_gpio = data or direction or control;
-        // We found a GPIO device, and this page a GPIO register. We want to handle this in slowmem
+        const gpio_kind = self.pak.gpio.device.kind;
-        return null;
+
        // There is a GPIO Device, and the current page contains at least one memory-mapped GPIO register
        if (gpio_kind != .None and has_gpio) return null;
    }
-    if (bus.pak.backup.kind == .Eeprom) {
+    if (self.pak.backup.kind == .Eeprom) {
-        if (bus.pak.buf.len > 0x100_000) {
+        if (self.pak.buf.len > 0x100_000) {
            // We are using a "large" EEPROM which means that if the below check is true
            // this page has an address that's reserved for the EEPROM and therefore must
            // be handled in slowmem
@@ -185,56 +227,16 @@ fn fillTableExternalMemory(bus: *Self, addr: usize) ?*anyopaque {
            // We are using a "small" EEPROM which means that if the below check is true
            // (that is, we're in the 0xD address page) then we must handle at least one
            // address in this page in slowmem
-            if (@truncate(u4, addr >> 24) == 0xD) return null;
+            if (@as(u4, @truncate(addr >> 24)) == 0xD) return null;
        }
    }
    // Finally, the GamePak has some unique behaviour for reads past the end of the ROM,
    // so those will be handled by slowmem as well
    const masked_addr = addr & 0x1FF_FFFF;
-    if (masked_addr >= bus.pak.buf.len) return null;
+    if (masked_addr >= self.pak.buf.len) return null;
-    return &bus.pak.buf[masked_addr];
+    return &self.pak.buf[masked_addr];
 }
 // TODO: Take advantage of fastmem here too?
 pub fn dbgRead(self: *const Self, comptime T: type, unaligned_address: u32) T {
    const page = @truncate(u8, unaligned_address >> 24);
    const address = forceAlign(T, unaligned_address);
    return switch (page) {
        // General Internal Memory
        0x00 => blk: {
            if (address < Bios.size)
                break :blk self.bios.dbgRead(T, self.cpu.r[15], address);
            break :blk self.openBus(T, address);
        },
        0x02 => self.ewram.read(T, address),
        0x03 => self.iwram.read(T, address),
        0x04 => self.readIo(T, address),
        // Internal Display Memory
        0x05 => self.ppu.palette.read(T, address),
        0x06 => self.ppu.vram.read(T, address),
        0x07 => self.ppu.oam.read(T, address),
        // External Memory (Game Pak)
        0x08...0x0D => self.pak.dbgRead(T, address),
        0x0E...0x0F => blk: {
            const value = self.pak.backup.read(unaligned_address);
            const multiplier = switch (T) {
                u32 => 0x01010101,
                u16 => 0x0101,
                u8 => 1,
                else => @compileError("Backup: Unsupported read width"),
            };
            break :blk @as(T, value) * multiplier;
        },
        else => self.openBus(T, address),
    };
 }
 fn readIo(self: *const Self, comptime T: type, address: u32) T {
@@ -255,7 +257,7 @@ fn openBus(self: *const Self, comptime T: type, address: u32) T {
        // the most recently fetched instruction by the pipeline
        if (!self.cpu.cpsr.t.read()) break :blk self.cpu.pipe.stage[1].?;
-        const page = @truncate(u8, r15 >> 24);
+        const page: u8 = @truncate(r15 >> 24);
        // PC + 2 = stage[0]
        // PC + 4 = stage[1]
@@ -264,7 +266,7 @@ fn openBus(self: *const Self, comptime T: type, address: u32) T {
        switch (page) {
            // EWRAM, PALRAM, VRAM, and Game ROM (16-bit)
            0x02, 0x05, 0x06, 0x08...0x0D => {
-                const halfword: u32 = @truncate(u16, self.cpu.pipe.stage[1].?);
+                const halfword: u32 = @as(u16, @truncate(self.cpu.pipe.stage[1].?));
                break :blk halfword << 16 | halfword;
            },
@@ -275,8 +277,8 @@ fn openBus(self: *const Self, comptime T: type, address: u32) T {
                const aligned = address & 3 == 0b00;
                // TODO: What to do on PC + 6?
-                const high: u32 = if (aligned) self.dbgRead(u16, r15 + 4) else @truncate(u16, self.cpu.pipe.stage[1].?);
+                const high: u32 = if (aligned) self.dbgRead(u16, r15 + 4) else @as(u16, @truncate(self.cpu.pipe.stage[1].?));
-                const low: u32 = @truncate(u16, self.cpu.pipe.stage[@boolToInt(aligned)].?);
+                const low: u32 = @as(u16, @truncate(self.cpu.pipe.stage[@intFromBool(aligned)].?));
                break :blk high << 16 | low;
            },
@@ -287,8 +289,8 @@ fn openBus(self: *const Self, comptime T: type, address: u32) T {
                // Unaligned: (PC + 4) | (PC + 2)
                const aligned = address & 3 == 0b00;
-                const high: u32 = @truncate(u16, self.cpu.pipe.stage[1 - @boolToInt(aligned)].?);
+                const high: u32 = @as(u16, @truncate(self.cpu.pipe.stage[1 - @intFromBool(aligned)].?));
-                const low: u32 = @truncate(u16, self.cpu.pipe.stage[@boolToInt(aligned)].?);
+                const low: u32 = @as(u16, @truncate(self.cpu.pipe.stage[@intFromBool(aligned)].?));
                break :blk high << 16 | low;
            },
@@ -299,7 +301,7 @@ fn openBus(self: *const Self, comptime T: type, address: u32) T {
        }
    };
-    return @truncate(T, word);
+    return @truncate(word);
 }
 pub fn read(self: *Self, comptime T: type, unaligned_address: u32) T {
@@ -308,16 +310,14 @@ pub fn read(self: *Self, comptime T: type, unaligned_address: u32) T {
    const offset = unaligned_address & (page_size - 1);
    // whether or not we do this in slowmem or fastmem, we should advance the scheduler
-    self.sched.tick += timings[@boolToInt(T == u32)][@truncate(u4, unaligned_address >> 24)];
+    self.sched.tick += timings[@intFromBool(T == u32)][@as(u4, @truncate(unaligned_address >> 24))];
    // We're doing some serious out-of-bounds open-bus reads
    if (page >= table_len) return self.openBus(T, unaligned_address);
    if (self.read_table[page]) |some_ptr| {
        // We have a pointer to a page, cast the pointer to it's underlying type
-        const Ptr = [*]const T;
+        const ptr: [*]const T = @ptrCast(@alignCast(some_ptr));
        const alignment = @alignOf(std.meta.Child(Ptr));
        const ptr = @ptrCast(Ptr, @alignCast(alignment, some_ptr));
        // Note: We don't check array length, since we force align the
        // lower bits of the address as the GBA would
@@ -327,17 +327,37 @@ pub fn read(self: *Self, comptime T: type, unaligned_address: u32) T {
    return self.slowRead(T, unaligned_address);
 }
 pub fn dbgRead(self: *const Self, comptime T: type, unaligned_address: u32) T {
    const bits = @typeInfo(std.math.IntFittingRange(0, page_size - 1)).Int.bits;
    const page = unaligned_address >> bits;
    const offset = unaligned_address & (page_size - 1);
    // We're doing some serious out-of-bounds open-bus reads
    if (page >= table_len) return self.openBus(T, unaligned_address);
    if (self.read_table[page]) |some_ptr| {
        // We have a pointer to a page, cast the pointer to it's underlying type
        const ptr: [*]const T = @ptrCast(@alignCast(some_ptr));
        // Note: We don't check array length, since we force align the
        // lower bits of the address as the GBA would
        return ptr[forceAlign(T, offset) / @sizeOf(T)];
    }
    return self.dbgSlowRead(T, unaligned_address);
 }
 fn slowRead(self: *Self, comptime T: type, unaligned_address: u32) T {
    @setCold(true);
-    const page = @truncate(u8, unaligned_address >> 24);
+    const page: u8 = @truncate(unaligned_address >> 24);
    const address = forceAlign(T, unaligned_address);
    return switch (page) {
        // General Internal Memory
        0x00 => blk: {
            if (address < Bios.size)
-                break :blk self.bios.read(T, self.cpu.r[15], address);
+                break :blk self.bios.read(T, self.cpu.r[15], unaligned_address);
            break :blk self.openBus(T, address);
        },
@@ -352,53 +372,106 @@ fn slowRead(self: *Self, comptime T: type, unaligned_address: u32) T {
        // External Memory (Game Pak)
        0x08...0x0D => self.pak.read(T, address),
-        0x0E...0x0F => blk: {
+        0x0E...0x0F => self.readBackup(T, unaligned_address),
            const value = self.pak.backup.read(unaligned_address);
            const multiplier = switch (T) {
                u32 => 0x01010101,
                u16 => 0x0101,
                u8 => 1,
                else => @compileError("Backup: Unsupported read width"),
            };
            break :blk @as(T, value) * multiplier;
        },
        else => self.openBus(T, address),
    };
 }
 fn dbgSlowRead(self: *const Self, comptime T: type, unaligned_address: u32) T {
    const page: u8 = @truncate(unaligned_address >> 24);
    const address = forceAlign(T, unaligned_address);
    return switch (page) {
        // General Internal Memory
        0x00 => blk: {
            if (address < Bios.size)
                break :blk self.bios.dbgRead(T, self.cpu.r[15], unaligned_address);
            break :blk self.openBus(T, address);
        },
        0x02 => unreachable, // handled by fastmem
        0x03 => unreachable, // handled by fastmem
        0x04 => self.readIo(T, address),
        // Internal Display Memory
        0x05 => unreachable, // handled by fastmem
        0x06 => unreachable, // handled by fastmem
        0x07 => unreachable, // handled by fastmem
        // External Memory (Game Pak)
        0x08...0x0D => self.pak.dbgRead(T, address),
        0x0E...0x0F => self.readBackup(T, unaligned_address),
        else => self.openBus(T, address),
    };
 }
 fn readBackup(self: *const Self, comptime T: type, unaligned_address: u32) T {
    const value = self.pak.backup.read(unaligned_address);
    const multiplier = switch (T) {
        u32 => 0x01010101,
        u16 => 0x0101,
        u8 => 1,
        else => @compileError("Backup: Unsupported read width"),
    };
    return @as(T, value) * multiplier;
 }
 pub fn write(self: *Self, comptime T: type, unaligned_address: u32, value: T) void {
    const bits = @typeInfo(std.math.IntFittingRange(0, page_size - 1)).Int.bits;
    const page = unaligned_address >> bits;
    const offset = unaligned_address & (page_size - 1);
    // whether or not we do this in slowmem or fastmem, we should advance the scheduler
-    self.sched.tick += timings[@boolToInt(T == u32)][@truncate(u4, unaligned_address >> 24)];
+    self.sched.tick += timings[@intFromBool(T == u32)][@as(u4, @truncate(unaligned_address >> 24))];
    // We're doing some serious out-of-bounds open-bus writes, they do nothing though
    if (page >= table_len) return;
-    if (self.write_tables[@boolToInt(T == u8)][page]) |some_ptr| {
+    if (self.write_tables[@intFromBool(T == u8)][page]) |some_ptr| {
        // We have a pointer to a page, cast the pointer to it's underlying type
-        const Ptr = [*]T;
+        const ptr: [*]T = @ptrCast(@alignCast(some_ptr));
        const alignment = @alignOf(std.meta.Child(Ptr));
        const ptr = @ptrCast(Ptr, @alignCast(alignment, some_ptr));
        // Note: We don't check array length, since we force align the
        // lower bits of the address as the GBA would
        ptr[forceAlign(T, offset) / @sizeOf(T)] = value;
    } else {
        // we can return early if this is an 8-bit OAM write
-        if (T == u8 and @truncate(u8, unaligned_address >> 24) == 0x07) return;
+        if (T == u8 and @as(u8, @truncate(unaligned_address >> 24)) == 0x07) return;
        self.slowWrite(T, unaligned_address, value);
    }
 }
-pub fn slowWrite(self: *Self, comptime T: type, unaligned_address: u32, value: T) void {
+/// Mostly Identical to `Bus.write`, slowmeme is handled by `Bus.dbgSlowWrite`
-    // @setCold(true);
+pub fn dbgWrite(self: *Self, comptime T: type, unaligned_address: u32, value: T) void {
-    const page = @truncate(u8, unaligned_address >> 24);
+    const bits = @typeInfo(std.math.IntFittingRange(0, page_size - 1)).Int.bits;
    const page = unaligned_address >> bits;
    const offset = unaligned_address & (page_size - 1);
    // We're doing some serious out-of-bounds open-bus writes, they do nothing though
    if (page >= table_len) return;
    if (self.write_tables[@intFromBool(T == u8)][page]) |some_ptr| {
        // We have a pointer to a page, cast the pointer to it's underlying type
        const ptr: [*]T = @ptrCast(@alignCast(some_ptr));
        // Note: We don't check array length, since we force align the
        // lower bits of the address as the GBA would
        ptr[forceAlign(T, offset) / @sizeOf(T)] = value;
    } else {
        // we can return early if this is an 8-bit OAM write
        if (T == u8 and @as(u8, @truncate(unaligned_address >> 24)) == 0x07) return;
        self.dbgSlowWrite(T, unaligned_address, value);
    }
 }
 fn slowWrite(self: *Self, comptime T: type, unaligned_address: u32, value: T) void {
    @setCold(true);
    const page: u8 = @truncate(unaligned_address >> 24);
    const address = forceAlign(T, unaligned_address);
    switch (page) {
@@ -415,7 +488,32 @@ pub fn slowWrite(self: *Self, comptime T: type, unaligned_address: u32, value: T
        // External Memory (Game Pak)
        0x08...0x0D => self.pak.write(T, self.dma[3].word_count, address, value),
-        0x0E...0x0F => self.pak.backup.write(unaligned_address, @truncate(u8, rotr(T, value, 8 * rotateBy(T, unaligned_address)))),
+        0x0E...0x0F => self.pak.backup.write(unaligned_address, @truncate(rotr(T, value, 8 * rotateBy(T, unaligned_address)))),
        else => {},
    }
 }
 fn dbgSlowWrite(self: *Self, comptime T: type, unaligned_address: u32, value: T) void {
    @setCold(true);
    const page: u8 = @truncate(unaligned_address >> 24);
    const address = forceAlign(T, unaligned_address);
    switch (page) {
        // General Internal Memory
        0x00 => self.bios.write(T, address, value),
        0x02 => unreachable, // completely handled by fastmem
        0x03 => unreachable, // completely handled by fastmem
        0x04 => return, // FIXME: Let debug writes mess with I/O
        // Internal Display Memory
        0x05 => self.ppu.palette.write(T, address, value),
        0x06 => self.ppu.vram.write(T, self.ppu.dispcnt, address, value),
        0x07 => unreachable, // completely handled by fastmem
        // External Memory (Game Pak)
        0x08...0x0D => return, // FIXME: Debug Write to Backup/GPIO w/out messing with state
        0x0E...0x0F => return, // FIXME: Debug Write to Backup w/out messing with state
        else => {},
    }
 }
@@ -425,11 +523,11 @@ inline fn rotateBy(comptime T: type, address: u32) u32 {
        u32 => address & 3,
        u16 => address & 1,
        u8 => 0,
-        else => @compileError("Backup: Unsupported write width"),
+        else => @compileError("Unsupported write width"),
    };
 }
-inline fn forceAlign(comptime T: type, address: u32) u32 {
+pub inline fn forceAlign(comptime T: type, address: u32) u32 {
    return switch (T) {
        u32 => address & ~@as(u32, 3),
        u16 => address & ~@as(u32, 1),
--- a/src/core/apu.zig
+++ b/src/core/apu.zig
@@ -3,7 +3,8 @@ const SDL = @import("sdl2");
 const io = @import("bus/io.zig");
 const util = @import("../util.zig");
-const Arm7tdmi = @import("cpu.zig").Arm7tdmi;
+const Arm7tdmi = @import("arm32").Arm7tdmi;
 const Bus = @import("Bus.zig");
 const Scheduler = @import("scheduler.zig").Scheduler;
 const ToneSweep = @import("apu/ToneSweep.zig");
 const Tone = @import("apu/Tone.zig");
@@ -14,13 +15,14 @@ const SoundFifo = std.fifo.LinearFifo(u8, .{ .Static = 0x20 });
 const getHalf = util.getHalf;
 const setHalf = util.setHalf;
 const intToBytes = util.intToBytes;
 const RingBuffer = util.RingBuffer;
 const log = std.log.scoped(.APU);
 pub const host_rate = @import("../platform.zig").sample_rate;
 pub const host_format = @import("../platform.zig").sample_format;
 pub fn read(comptime T: type, apu: *const Apu, addr: u32) ?T {
-    const byte_addr = @truncate(u8, addr);
+    const byte_addr: u8 = @truncate(addr);
    return switch (T) {
        u32 => switch (byte_addr) {
@@ -71,27 +73,27 @@ pub fn read(comptime T: type, apu: *const Apu, addr: u32) ?T {
            else => util.io.read.err(T, log, "unaligned {} read from 0x{X:0>8}", .{ T, addr }),
        },
        u8 => switch (byte_addr) {
-            0x60, 0x61 => @truncate(T, @as(u16, apu.ch1.sound1CntL()) >> getHalf(byte_addr)),
+            0x60, 0x61 => @truncate(@as(u16, apu.ch1.sound1CntL()) >> getHalf(byte_addr)),
-            0x62, 0x63 => @truncate(T, apu.ch1.sound1CntH() >> getHalf(byte_addr)),
+            0x62, 0x63 => @truncate(apu.ch1.sound1CntH() >> getHalf(byte_addr)),
-            0x64, 0x65 => @truncate(T, apu.ch1.sound1CntX() >> getHalf(byte_addr)),
+            0x64, 0x65 => @truncate(apu.ch1.sound1CntX() >> getHalf(byte_addr)),
            0x66, 0x67 => 0x00, // assuming behaviour is identical to that of 16-bit reads
-            0x68, 0x69 => @truncate(T, apu.ch2.sound2CntL() >> getHalf(byte_addr)),
+            0x68, 0x69 => @truncate(apu.ch2.sound2CntL() >> getHalf(byte_addr)),
            0x6A, 0x6B => 0x00,
-            0x6C, 0x6D => @truncate(T, apu.ch2.sound2CntH() >> getHalf(byte_addr)),
+            0x6C, 0x6D => @truncate(apu.ch2.sound2CntH() >> getHalf(byte_addr)),
            0x6E, 0x6F => 0x00,
-            0x70, 0x71 => @truncate(T, @as(u16, apu.ch3.sound3CntL()) >> getHalf(byte_addr)), // SOUND3CNT_L
+            0x70, 0x71 => @truncate(@as(u16, apu.ch3.sound3CntL()) >> getHalf(byte_addr)), // SOUND3CNT_L
-            0x72, 0x73 => @truncate(T, apu.ch3.sound3CntH() >> getHalf(byte_addr)),
+            0x72, 0x73 => @truncate(apu.ch3.sound3CntH() >> getHalf(byte_addr)),
-            0x74, 0x75 => @truncate(T, apu.ch3.sound3CntX() >> getHalf(byte_addr)), // SOUND3CNT_L
+            0x74, 0x75 => @truncate(apu.ch3.sound3CntX() >> getHalf(byte_addr)), // SOUND3CNT_L
            0x76, 0x77 => 0x00,
-            0x78, 0x79 => @truncate(T, apu.ch4.sound4CntL() >> getHalf(byte_addr)),
+            0x78, 0x79 => @truncate(apu.ch4.sound4CntL() >> getHalf(byte_addr)),
            0x7A, 0x7B => 0x00,
-            0x7C, 0x7D => @truncate(T, apu.ch4.sound4CntH() >> getHalf(byte_addr)),
+            0x7C, 0x7D => @truncate(apu.ch4.sound4CntH() >> getHalf(byte_addr)),
            0x7E, 0x7F => 0x00,
-            0x80, 0x81 => @truncate(T, apu.soundCntL() >> getHalf(byte_addr)), // SOUNDCNT_L
+            0x80, 0x81 => @truncate(apu.soundCntL() >> getHalf(byte_addr)), // SOUNDCNT_L
-            0x82, 0x83 => @truncate(T, apu.soundCntH() >> getHalf(byte_addr)), // SOUNDCNT_H
+            0x82, 0x83 => @truncate(apu.soundCntH() >> getHalf(byte_addr)), // SOUNDCNT_H
-            0x84, 0x85 => @truncate(T, @as(u16, apu.soundCntX()) >> getHalf(byte_addr)),
+            0x84, 0x85 => @truncate(@as(u16, apu.soundCntX()) >> getHalf(byte_addr)),
            0x86, 0x87 => 0x00,
-            0x88, 0x89 => @truncate(T, apu.bias.raw >> getHalf(byte_addr)), // SOUNDBIAS
+            0x88, 0x89 => @truncate(apu.bias.raw >> getHalf(byte_addr)), // SOUNDBIAS
            0x8A, 0x8B => 0x00,
            0x8C...0x8F => null,
            0x90...0x9F => apu.ch3.wave_dev.read(T, apu.ch3.select, addr),
@@ -104,7 +106,7 @@ pub fn read(comptime T: type, apu: *const Apu, addr: u32) ?T {
 }
 pub fn write(comptime T: type, apu: *Apu, addr: u32, value: T) void {
-    const byte_addr = @truncate(u8, addr);
+    const byte_addr: u8 = @truncate(addr);
    if (byte_addr <= 0x81 and !apu.cnt.apu_enable.read()) return;
@@ -115,20 +117,20 @@ pub fn write(comptime T: type, apu: *Apu, addr: u32, value: T) void {
            switch (byte_addr) {
                0x60 => apu.ch1.setSound1Cnt(value),
-                0x64 => apu.ch1.setSound1CntX(&apu.fs, @truncate(u16, value)),
+                0x64 => apu.ch1.setSound1CntX(&apu.fs, @truncate(value)),
-                0x68 => apu.ch2.setSound2CntL(@truncate(u16, value)),
+                0x68 => apu.ch2.setSound2CntL(@truncate(value)),
-                0x6C => apu.ch2.setSound2CntH(&apu.fs, @truncate(u16, value)),
+                0x6C => apu.ch2.setSound2CntH(&apu.fs, @truncate(value)),
                0x70 => apu.ch3.setSound3Cnt(value),
-                0x74 => apu.ch3.setSound3CntX(&apu.fs, @truncate(u16, value)),
+                0x74 => apu.ch3.setSound3CntX(&apu.fs, @truncate(value)),
-                0x78 => apu.ch4.setSound4CntL(@truncate(u16, value)),
+                0x78 => apu.ch4.setSound4CntL(@truncate(value)),
-                0x7C => apu.ch4.setSound4CntH(&apu.fs, @truncate(u16, value)),
+                0x7C => apu.ch4.setSound4CntH(&apu.fs, @truncate(value)),
                0x80 => apu.setSoundCnt(value),
                0x84 => apu.setSoundCntX(value >> 7 & 1 == 1),
-                0x88 => apu.bias.raw = @truncate(u16, value),
+                0x88 => apu.bias.raw = @truncate(value),
                0x8C => {},
                0x90, 0x94, 0x98, 0x9C => apu.ch3.wave_dev.write(T, apu.ch3.select, addr, value),
@@ -141,7 +143,7 @@ pub fn write(comptime T: type, apu: *Apu, addr: u32, value: T) void {
            if (byte_addr <= 0x81 and !apu.cnt.apu_enable.read()) return;
            switch (byte_addr) {
-                0x60 => apu.ch1.setSound1CntL(@truncate(u8, value)), // SOUND1CNT_L
+                0x60 => apu.ch1.setSound1CntL(@truncate(value)), // SOUND1CNT_L
                0x62 => apu.ch1.setSound1CntH(value),
                0x64 => apu.ch1.setSound1CntX(&apu.fs, value),
                0x66 => {},
@@ -151,7 +153,7 @@ pub fn write(comptime T: type, apu: *Apu, addr: u32, value: T) void {
                0x6C => apu.ch2.setSound2CntH(&apu.fs, value),
                0x6E => {},
-                0x70 => apu.ch3.setSound3CntL(@truncate(u8, value)),
+                0x70 => apu.ch3.setSound3CntL(@truncate(value)),
                0x72 => apu.ch3.setSound3CntH(value),
                0x74 => apu.ch3.setSound3CntX(&apu.fs, value),
                0x76 => {},
@@ -244,20 +246,17 @@ pub const Apu = struct {
    sampling_cycle: u2,
-    sample_queue: RingBuffer(u16),
+    stream: *SDL.SDL_AudioStream,
    sched: *Scheduler,
    fs: FrameSequencer,
    capacitor: f32,
    is_buffer_full: bool,
    pub const Tick = enum { Length, Envelope, Sweep };
    pub fn init(sched: *Scheduler) Self {
        const NUM_CHANNELS: usize = 2;
        const allocator = std.heap.c_allocator;
        const sample_buf = allocator.alloc(u16, 0x800 * NUM_CHANNELS) catch @panic("failed to allocate sample buffer");
        const apu: Self = .{
            .ch1 = ToneSweep.init(sched),
            .ch2 = Tone.init(sched),
@@ -272,24 +271,52 @@ pub const Apu = struct {
            .bias = .{ .raw = 0x0200 },
            .sampling_cycle = 0b00,
-            .sample_queue = RingBuffer(u16).init(sample_buf),
+            .stream = SDL.SDL_NewAudioStream(SDL.AUDIO_U16, 2, 1 << 15, host_format, 2, host_rate).?,
            .sched = sched,
            .capacitor = 0,
            .fs = FrameSequencer.init(),
            .is_buffer_full = false,
        };
-        sched.push(.SampleAudio, apu.interval());
+        Self.initEvents(apu.sched, apu.interval());
        sched.push(.{ .ApuChannel = 0 }, @import("apu/signal/Square.zig").interval);
        sched.push(.{ .ApuChannel = 1 }, @import("apu/signal/Square.zig").interval);
        sched.push(.{ .ApuChannel = 2 }, @import("apu/signal/Wave.zig").interval);
        sched.push(.{ .ApuChannel = 3 }, @import("apu/signal/Lfsr.zig").interval);
        sched.push(.FrameSequencer, FrameSequencer.interval);
        return apu;
    }
-    fn reset(self: *Self) void {
+    fn initEvents(scheduler: *Scheduler, apu_interval: u64) void {
        scheduler.push(.SampleAudio, apu_interval);
        scheduler.push(.{ .ApuChannel = 0 }, @import("apu/signal/Square.zig").interval);
        scheduler.push(.{ .ApuChannel = 1 }, @import("apu/signal/Square.zig").interval);
        scheduler.push(.{ .ApuChannel = 2 }, @import("apu/signal/Wave.zig").interval);
        scheduler.push(.{ .ApuChannel = 3 }, @import("apu/signal/Lfsr.zig").interval);
        scheduler.push(.FrameSequencer, FrameSequencer.interval);
    }
    /// Used when resetting the emulator
    pub fn reset(self: *Self) void {
        // FIXME: These reset functions are meant to emulate obscure APU behaviour. Write proper emu reset fns
        self.ch1.reset();
        self.ch2.reset();
        self.ch3.reset();
        self.ch4.reset();
        self.chA.reset();
        self.chB.reset();
        self.psg_cnt = .{ .raw = 0 };
        self.dma_cnt = .{ .raw = 0 };
        self.cnt = .{ .raw = 0 };
        self.bias = .{ .raw = 0x200 };
        self.sampling_cycle = 0;
        self.fs.reset();
        Self.initEvents(self.sched, self.interval());
    }
    /// Emulates the reset behaviour of the APU
    fn _reset(self: *Self) void {
        // All PSG Registers between 0x0400_0060..0x0400_0081 are zeroed
        // 0x0400_0082 and 0x0400_0088 retain their values
        self.ch1.reset();
@@ -303,8 +330,8 @@ pub const Apu = struct {
    /// SOUNDCNT
    fn setSoundCnt(self: *Self, value: u32) void {
-        if (self.cnt.apu_enable.read()) self.setSoundCntL(@truncate(u16, value));
+        if (self.cnt.apu_enable.read()) self.setSoundCntL(@truncate(value));
-        self.setSoundCntH(@truncate(u16, value >> 16));
+        self.setSoundCntH(@truncate(value >> 16));
    }
    /// SOUNDCNT_L
@@ -351,18 +378,18 @@ pub const Apu = struct {
            // Rest Noise
            self.ch4.lfsr.reset();
        } else {
-            self.reset();
+            self._reset();
        }
    }
    /// NR52
    pub fn soundCntX(self: *const Self) u8 {
-        const apu_enable: u8 = @boolToInt(self.cnt.apu_enable.read());
+        const apu_enable: u8 = @intFromBool(self.cnt.apu_enable.read());
-        const ch1_enable: u8 = @boolToInt(self.ch1.enabled);
+        const ch1_enable: u8 = @intFromBool(self.ch1.enabled);
-        const ch2_enable: u8 = @boolToInt(self.ch2.enabled);
+        const ch2_enable: u8 = @intFromBool(self.ch2.enabled);
-        const ch3_enable: u8 = @boolToInt(self.ch3.enabled);
+        const ch3_enable: u8 = @intFromBool(self.ch3.enabled);
-        const ch4_enable: u8 = @boolToInt(self.ch4.enabled);
+        const ch4_enable: u8 = @intFromBool(self.ch4.enabled);
        return apu_enable << 7 | ch4_enable << 3 | ch3_enable << 2 | ch2_enable << 1 | ch1_enable;
    }
@@ -370,6 +397,11 @@ pub const Apu = struct {
    pub fn sampleAudio(self: *Self, late: u64) void {
        self.sched.push(.SampleAudio, self.interval() -| late);
        // Whether the APU is busy or not is determined  by the main loop in emu.zig
        // This should only ever be true (because this side of the emu is single threaded)
        // When audio sync is disaabled
        if (self.is_buffer_full) return;
        var left: i16 = 0;
        var right: i16 = 0;
@@ -418,14 +450,30 @@ pub const Apu = struct {
        left += bias;
        right += bias;
-        const clamped_left = std.math.clamp(@bitCast(u16, left), std.math.minInt(u11), std.math.maxInt(u11));
+        const clamped_left = std.math.clamp(@as(u16, @bitCast(left)), 0, std.math.maxInt(u11));
-        const clamped_right = std.math.clamp(@bitCast(u16, right), std.math.minInt(u11), std.math.maxInt(u11));
+        const clamped_right = std.math.clamp(@as(u16, @bitCast(right)), 0, std.math.maxInt(u11));
        // Extend to 16-bit signed audio samples
        const ext_left = (clamped_left << 5) | (clamped_left >> 6);
        const ext_right = (clamped_right << 5) | (clamped_right >> 6);
-        self.sample_queue.push(ext_left, ext_right) catch {};
+        if (self.sampling_cycle != self.bias.sampling_cycle.read()) self.replaceSDLResampler();
        _ = SDL.SDL_AudioStreamPut(self.stream, &[2]u16{ ext_left, ext_right }, 2 * @sizeOf(u16));
    }
    fn replaceSDLResampler(self: *Self) void {
        @setCold(true);
        const sample_rate = Self.sampleRate(self.bias.sampling_cycle.read());
        log.info("Sample Rate changed from {}Hz to {}Hz", .{ Self.sampleRate(self.sampling_cycle), sample_rate });
        // Sampling Cycle (Sample Rate) changed, Craete a new SDL Audio Resampler
        // FIXME: Replace SDL's Audio Resampler with either a custom or more reliable one
        const old_stream = self.stream;
        defer SDL.SDL_FreeAudioStream(old_stream);
        self.sampling_cycle = self.bias.sampling_cycle.read();
        self.stream = SDL.SDL_NewAudioStream(SDL.AUDIO_U16, 2, @intCast(sample_rate), host_format, 2, host_rate).?;
    }
    fn interval(self: *const Self) u64 {
@@ -473,18 +521,20 @@ pub const Apu = struct {
    pub fn onDmaAudioSampleRequest(self: *Self, cpu: *Arm7tdmi, tim_id: u3) void {
        if (!self.cnt.apu_enable.read()) return;
-        if (@boolToInt(self.dma_cnt.chA_timer.read()) == tim_id) {
+        const bus_ptr: *Bus = @ptrCast(@alignCast(cpu.bus.ptr));
        if (@intFromBool(self.dma_cnt.chA_timer.read()) == tim_id) {
            if (!self.chA.enabled) return;
            self.chA.updateSample();
-            if (self.chA.len() <= 15) cpu.bus.dma[1].requestAudio(0x0400_00A0);
+            if (self.chA.len() <= 15) bus_ptr.dma[1].requestAudio(0x0400_00A0);
        }
-        if (@boolToInt(self.dma_cnt.chB_timer.read()) == tim_id) {
+        if (@intFromBool(self.dma_cnt.chB_timer.read()) == tim_id) {
            if (!self.chB.enabled) return;
            self.chB.updateSample();
-            if (self.chB.len() <= 15) cpu.bus.dma[2].requestAudio(0x0400_00A4);
+            if (self.chB.len() <= 15) bus_ptr.dma[2].requestAudio(0x0400_00A4);
        }
    }
 };
@@ -507,10 +557,15 @@ pub fn DmaSound(comptime kind: DmaSoundKind) type {
            };
        }
        /// Used when resetting hte emulator (not emulation code)
        fn reset(self: *Self) void {
            self.* = Self.init();
        }
        pub fn push(self: *Self, value: u32) void {
            if (!self.enabled) self.enable();
-            self.fifo.write(&intToBytes(u32, value)) catch |e| log.err("{} Error: {}", .{ kind, e });
+            self.fifo.write(std.mem.asBytes(&value)) catch |e| log.err("{} Error: {}", .{ kind, e });
        }
        fn enable(self: *Self) void {
@@ -523,11 +578,11 @@ pub fn DmaSound(comptime kind: DmaSoundKind) type {
        }
        pub fn updateSample(self: *Self) void {
-            if (self.fifo.readItem()) |sample| self.sample = @bitCast(i8, sample);
+            if (self.fifo.readItem()) |sample| self.sample = @bitCast(sample);
        }
        pub fn amplitude(self: *const Self) i16 {
-            return @as(i16, self.sample);
+            return self.sample;
        }
    };
 }
@@ -541,10 +596,14 @@ pub const FrameSequencer = struct {
    const Self = @This();
    pub const interval = (1 << 24) / 512;
-    step: u3,
+    step: u3 = 0,
    pub fn init() Self {
-        return .{ .step = 0 };
+        return .{};
    }
    pub fn reset(self: *Self) void {
        self.* = .{};
    }
    pub fn tick(self: *Self) void {
--- a/src/core/apu/Noise.zig
+++ b/src/core/apu/Noise.zig
@@ -76,14 +76,14 @@ pub fn sound4CntL(self: *const Self) u16 {
 /// NR41, NR42
 pub fn setSound4CntL(self: *Self, value: u16) void {
-    self.setNr41(@truncate(u8, value));
+    self.setNr41(@truncate(value));
-    self.setNr42(@truncate(u8, value >> 8));
+    self.setNr42(@truncate(value >> 8));
 }
 /// NR41
 pub fn setNr41(self: *Self, len: u8) void {
-    self.len = @truncate(u6, len);
+    self.len = @truncate(len);
-    self.len_dev.timer = @as(u7, 64) - @truncate(u6, len);
+    self.len_dev.timer = @as(u7, 64) - self.len;
 }
 /// NR42
@@ -99,8 +99,8 @@ pub fn sound4CntH(self: *const Self) u16 {
 /// NR43, NR44
 pub fn setSound4CntH(self: *Self, fs: *const FrameSequencer, value: u16) void {
-    self.poly.raw = @truncate(u8, value);
+    self.poly.raw = @truncate(value);
-    self.setNr44(fs, @truncate(u8, value >> 8));
+    self.setNr44(fs, @truncate(value >> 8));
 }
 /// NR44
--- a/src/core/apu/Tone.zig
+++ b/src/core/apu/Tone.zig
@@ -77,14 +77,14 @@ pub fn sound2CntL(self: *const Self) u16 {
 /// NR21, NR22
 pub fn setSound2CntL(self: *Self, value: u16) void {
-    self.setNr21(@truncate(u8, value));
+    self.setNr21(@truncate(value));
-    self.setNr22(@truncate(u8, value >> 8));
+    self.setNr22(@truncate(value >> 8));
 }
 /// NR21
 pub fn setNr21(self: *Self, value: u8) void {
    self.duty.raw = value;
-    self.len_dev.timer = @as(u7, 64) - @truncate(u6, value);
+    self.len_dev.timer = @as(u7, 64) - @as(u6, @truncate(value));
 }
 /// NR22
@@ -100,8 +100,8 @@ pub fn sound2CntH(self: *const Self) u16 {
 /// NR23, NR24
 pub fn setSound2CntH(self: *Self, fs: *const FrameSequencer, value: u16) void {
-    self.setNr23(@truncate(u8, value));
+    self.setNr23(@truncate(value));
-    self.setNr24(fs, @truncate(u8, value >> 8));
+    self.setNr24(fs, @truncate(value >> 8));
 }
 /// NR23
--- a/src/core/apu/ToneSweep.zig
+++ b/src/core/apu/ToneSweep.zig
@@ -81,8 +81,8 @@ pub fn onToneSweepEvent(self: *Self, late: u64) void {
 /// NR10, NR11, NR12
 pub fn setSound1Cnt(self: *Self, value: u32) void {
-    self.setSound1CntL(@truncate(u8, value));
+    self.setSound1CntL(@truncate(value));
-    self.setSound1CntH(@truncate(u16, value >> 16));
+    self.setSound1CntH(@truncate(value >> 16));
 }
 /// NR10
@@ -111,14 +111,14 @@ pub fn sound1CntH(self: *const Self) u16 {
 /// NR11, NR12
 pub fn setSound1CntH(self: *Self, value: u16) void {
-    self.setNr11(@truncate(u8, value));
+    self.setNr11(@truncate(value));
-    self.setNr12(@truncate(u8, value >> 8));
+    self.setNr12(@truncate(value >> 8));
 }
 /// NR11
 pub fn setNr11(self: *Self, value: u8) void {
    self.duty.raw = value;
-    self.len_dev.timer = @as(u7, 64) - @truncate(u6, value);
+    self.len_dev.timer = @as(u7, 64) - @as(u6, @truncate(value));
 }
 /// NR12
@@ -134,8 +134,8 @@ pub fn sound1CntX(self: *const Self) u16 {
 /// NR13, NR14
 pub fn setSound1CntX(self: *Self, fs: *const FrameSequencer, value: u16) void {
-    self.setNr13(@truncate(u8, value));
+    self.setNr13(@truncate(value));
-    self.setNr14(fs, @truncate(u8, value >> 8));
+    self.setNr14(fs, @truncate(value >> 8));
 }
 /// NR13
--- a/src/core/apu/Wave.zig
+++ b/src/core/apu/Wave.zig
@@ -64,8 +64,8 @@ pub fn tick(self: *Self, comptime kind: Tick) void {
 /// NR30, NR31, NR32
 pub fn setSound3Cnt(self: *Self, value: u32) void {
-    self.setSound3CntL(@truncate(u8, value));
+    self.setSound3CntL(@truncate(value));
-    self.setSound3CntH(@truncate(u16, value >> 16));
+    self.setSound3CntH(@truncate(value >> 16));
 }
 /// NR30
@@ -86,8 +86,8 @@ pub fn sound3CntH(self: *const Self) u16 {
 /// NR31, NR32
 pub fn setSound3CntH(self: *Self, value: u16) void {
-    self.setNr31(@truncate(u8, value));
+    self.setNr31(@truncate(value));
-    self.vol.raw = (@truncate(u8, value >> 8));
+    self.vol.raw = @truncate(value >> 8);
 }
 /// NR31
@@ -98,8 +98,8 @@ pub fn setNr31(self: *Self, len: u8) void {
 /// NR33, NR34
 pub fn setSound3CntX(self: *Self, fs: *const FrameSequencer, value: u16) void {
-    self.setNr33(@truncate(u8, value));
+    self.setNr33(@truncate(value));
-    self.setNr34(fs, @truncate(u8, value >> 8));
+    self.setNr34(fs, @truncate(value >> 8));
 }
 /// NR33, NR34
--- a/src/core/apu/device/Envelope.zig
+++ b/src/core/apu/device/Envelope.zig
@@ -3,17 +3,16 @@ const io = @import("../../bus/io.zig");
 const Self = @This();
 /// Period Timer
-timer: u3,
+timer: u3 = 0,
 /// Current Volume
-vol: u4,
+vol: u4 = 0,
 pub fn create() Self {
-    return .{ .timer = 0, .vol = 0 };
+    return .{};
 }
 pub fn reset(self: *Self) void {
-    self.timer = 0;
+    self.* = .{};
    self.vol = 0;
 }
 pub fn tick(self: *Self, nrx2: io.Envelope) void {
--- a/src/core/apu/device/Length.zig
+++ b/src/core/apu/device/Length.zig
@@ -1,13 +1,13 @@
 const Self = @This();
-timer: u9,
+timer: u9 = 0,
 pub fn create() Self {
-    return .{ .timer = 0 };
+    return .{};
 }
 pub fn reset(self: *Self) void {
-    self.timer = 0;
+    self.* = .{};
 }
 pub fn tick(self: *Self, enabled: bool, ch_enable: *bool) void {
--- a/src/core/apu/device/Sweep.zig
+++ b/src/core/apu/device/Sweep.zig
@@ -3,26 +3,18 @@ const ToneSweep = @import("../ToneSweep.zig");
 const Self = @This();
-timer: u8,
+timer: u8 = 0,
-enabled: bool,
+enabled: bool = false,
-shadow: u11,
+shadow: u11 = 0,
-calc_performed: bool,
+calc_performed: bool = false,
 pub fn create() Self {
-    return .{
+    return .{};
        .timer = 0,
        .enabled = false,
        .shadow = 0,
        .calc_performed = false,
    };
 }
 pub fn reset(self: *Self) void {
-    self.timer = 0;
+    self.* = .{};
    self.enabled = false;
    self.shadow = 0;
    self.calc_performed = false;
 }
 pub fn tick(self: *Self, ch1: *ToneSweep) void {
@@ -36,8 +28,8 @@ pub fn tick(self: *Self, ch1: *ToneSweep) void {
            const new_freq = self.calculate(ch1.sweep, &ch1.enabled);
            if (new_freq <= 0x7FF and ch1.sweep.shift.read() != 0) {
-                ch1.freq.frequency.write(@truncate(u11, new_freq));
+                ch1.freq.frequency.write(@as(u11, @truncate(new_freq)));
-                self.shadow = @truncate(u11, new_freq);
+                self.shadow = @truncate(new_freq);
                _ = self.calculate(ch1.sweep, &ch1.enabled);
            }
--- a/src/core/apu/signal/Wave.zig
+++ b/src/core/apu/signal/Wave.zig
@@ -70,7 +70,7 @@ pub fn sample(self: *const Self, nr30: io.WaveSelect) u4 {
    const base = if (nr30.bank.read()) @as(u32, 0x10) else 0;
    const value = self.buf[base + self.offset / 2];
-    return if (self.offset & 1 == 0) @truncate(u4, value >> 4) else @truncate(u4, value);
+    return if (self.offset & 1 == 0) @truncate(value >> 4) else @truncate(value);
 }
 /// TODO: Write comment
--- a/src/core/bus/Bios.zig
+++ b/src/core/bus/Bios.zig
@@ -3,6 +3,9 @@ const std = @import("std");
 const Allocator = std.mem.Allocator;
 const log = std.log.scoped(.Bios);
 const rotr = @import("zba-util").rotr;
 const forceAlign = @import("../Bus.zig").forceAlign;
 /// Size of the BIOS in bytes
 pub const size = 0x4000;
 const Self = @This();
@@ -10,21 +13,37 @@ const Self = @This();
 buf: ?[]u8,
 allocator: Allocator,
-addr_latch: u32,
+addr_latch: u32 = 0,
-pub fn read(self: *Self, comptime T: type, r15: u32, addr: u32) T {
+// https://github.com/ITotalJustice/notorious_beeg/issues/106
 pub fn read(self: *Self, comptime T: type, r15: u32, address: u32) T {
    if (r15 < Self.size) {
        const addr = forceAlign(T, address);
        self.addr_latch = addr;
        return self._read(T, addr);
    }
-    log.debug("Rejected read since r15=0x{X:0>8}", .{r15});
+    log.warn("Open Bus! Read from 0x{X:0>8}, but PC was 0x{X:0>8}", .{ address, r15 });
-    return @truncate(T, self._read(T, self.addr_latch));
+    const value = self._read(u32, self.addr_latch);
    return @truncate(rotr(u32, value, 8 * rotateBy(T, address)));
 }
-pub fn dbgRead(self: *const Self, comptime T: type, r15: u32, addr: u32) T {
+fn rotateBy(comptime T: type, address: u32) u32 {
-    if (r15 < Self.size) return self._read(T, addr);
+    return switch (T) {
-    return @truncate(T, self._read(T, self.addr_latch + 8));
+        u8 => address & 3,
        u16 => address & 2,
        u32 => 0,
        else => @compileError("bios: unsupported read width"),
    };
 }
 pub fn dbgRead(self: *const Self, comptime T: type, r15: u32, address: u32) T {
    if (r15 < Self.size) return self._read(T, forceAlign(T, address));
    const value = self._read(u32, self.addr_latch);
    return @truncate(rotr(u32, value, 8 * rotateBy(T, address)));
 }
 /// Read without the GBA safety checks
@@ -43,18 +62,28 @@ pub fn write(_: *Self, comptime T: type, addr: u32, value: T) void {
 }
 pub fn init(allocator: Allocator, maybe_path: ?[]const u8) !Self {
-    const buf: ?[]u8 = if (maybe_path) |path| blk: {
+    if (maybe_path == null) return .{ .buf = null, .allocator = allocator };
-        const file = try std.fs.cwd().openFile(path, .{});
+    const file_path = maybe_path.?;
        defer file.close();
-        break :blk try file.readToEndAlloc(allocator, try file.getEndPos());
+    const buf = try allocator.alloc(u8, Self.size);
-    } else null;
+    errdefer allocator.free(buf);
-    return Self{
+    var self: Self = .{ .buf = buf, .allocator = allocator };
-        .buf = buf,
+    try self.load(file_path);
-        .allocator = allocator,
+
-        .addr_latch = 0,
+    return self;
-    };
+}
 pub fn load(self: *Self, file_path: []const u8) !void {
    const file = try std.fs.cwd().openFile(file_path, .{});
    defer file.close();
    const len = try file.readAll(self.buf orelse return error.UnallocatedBuffer);
    if (len != Self.size) log.err("Expected BIOS to be {}B, was {}B", .{ Self.size, len });
 }
 pub fn reset(self: *Self) void {
    self.addr_latch = 0;
 }
 pub fn deinit(self: *Self) void {
--- a/src/core/bus/Ewram.zig
+++ b/src/core/bus/Ewram.zig
@@ -27,7 +27,7 @@ pub fn write(self: *const Self, comptime T: type, address: usize, value: T) void
 pub fn init(allocator: Allocator) !Self {
    const buf = try allocator.alloc(u8, ewram_size);
-    std.mem.set(u8, buf, 0);
+    @memset(buf, 0);
    return Self{
        .buf = buf,
@@ -35,6 +35,10 @@ pub fn init(allocator: Allocator) !Self {
    };
 }
 pub fn reset(self: *Self) void {
    @memset(self.buf, 0);
 }
 pub fn deinit(self: *Self) void {
    self.allocator.free(self.buf);
    self.* = undefined;
--- a/src/core/bus/GamePak.zig
+++ b/src/core/bus/GamePak.zig
@@ -1,7 +1,7 @@
 const std = @import("std");
 const config = @import("../../config.zig");
-const Arm7tdmi = @import("../cpu.zig").Arm7tdmi;
+const Arm7tdmi = @import("arm32").Arm7tdmi;
 const Backup = @import("backup.zig").Backup;
 const Gpio = @import("gpio.zig").Gpio;
 const Allocator = std.mem.Allocator;
@@ -30,7 +30,7 @@ pub fn read(self: *Self, comptime T: type, address: u32) T {
            // Addresses 0x0D00_0000 to 0x0DFF_FFFF are reserved for EEPROM accesses if
            // * Backup type is EEPROM
            // * Small ROM (less than 16MB)
-            if (@truncate(u8, address >> 24) == 0x0D)
+            if (@as(u8, @truncate(address >> 24)) == 0x0D)
                return self.backup.eeprom.read();
        }
    }
@@ -77,7 +77,7 @@ inline fn get(self: *const Self, i: u32) u8 {
    if (i < self.buf.len) return self.buf[i];
    const lhs = i >> 1 & 0xFFFF;
-    return @truncate(u8, lhs >> 8 * @truncate(u5, i & 1));
+    return @truncate(lhs >> 8 * @as(u5, @truncate(i & 1)));
 }
 pub fn dbgRead(self: *const Self, comptime T: type, address: u32) T {
@@ -94,7 +94,7 @@ pub fn dbgRead(self: *const Self, comptime T: type, address: u32) T {
            // Addresses 0x0D00_0000 to 0x0DFF_FFFF are reserved for EEPROM accesses if
            // * Backup type is EEPROM
            // * Small ROM (less than 16MB)
-            if (@truncate(u8, address >> 24) == 0x0D)
+            if (@as(u8, @truncate(address >> 24)) == 0x0D)
                return self.backup.eeprom.dbgRead();
        }
    }
@@ -139,7 +139,7 @@ pub fn write(self: *Self, comptime T: type, word_count: u16, address: u32, value
    const addr = address & 0x1FF_FFFF;
    if (self.backup.kind == .Eeprom) {
-        const bit = @truncate(u1, value);
+        const bit: u1 = @truncate(value);
        if (self.buf.len > 0x100_0000) { // Large
            // Addresses 0x1FF_FF00 to 0x1FF_FFFF are reserved from EEPROM accesses if
@@ -151,7 +151,7 @@ pub fn write(self: *Self, comptime T: type, word_count: u16, address: u32, value
            // Addresses 0x0D00_0000 to 0x0DFF_FFFF are reserved for EEPROM accesses if
            // * Backup type is EEPROM
            // * Small ROM (less than 16MB)
-            if (@truncate(u8, address >> 24) == 0x0D)
+            if (@as(u8, @truncate(address >> 24)) == 0x0D)
                return self.backup.eeprom.write(word_count, &self.backup.buf, bit);
        }
    }
@@ -159,19 +159,19 @@ pub fn write(self: *Self, comptime T: type, word_count: u16, address: u32, value
    switch (T) {
        u32 => switch (address) {
            0x0800_00C4 => {
-                self.gpio.write(.Data, @truncate(u4, value));
+                self.gpio.write(.Data, @as(u4, @truncate(value)));
-                self.gpio.write(.Direction, @truncate(u4, value >> 16));
+                self.gpio.write(.Direction, @as(u4, @truncate(value >> 16)));
            },
            0x0800_00C6 => {
-                self.gpio.write(.Direction, @truncate(u4, value));
+                self.gpio.write(.Direction, @as(u4, @truncate(value)));
-                self.gpio.write(.Control, @truncate(u1, value >> 16));
+                self.gpio.write(.Control, @as(u1, @truncate(value >> 16)));
            },
            else => log.err("Wrote {} 0x{X:0>8} to 0x{X:0>8}, Unhandled", .{ T, value, address }),
        },
        u16 => switch (address) {
-            0x0800_00C4 => self.gpio.write(.Data, @truncate(u4, value)),
+            0x0800_00C4 => self.gpio.write(.Data, @as(u4, @truncate(value))),
-            0x0800_00C6 => self.gpio.write(.Direction, @truncate(u4, value)),
+            0x0800_00C6 => self.gpio.write(.Direction, @as(u4, @truncate(value))),
-            0x0800_00C8 => self.gpio.write(.Control, @truncate(u1, value)),
+            0x0800_00C8 => self.gpio.write(.Control, @as(u1, @truncate(value))),
            else => log.err("Wrote {} 0x{X:0>4} to 0x{X:0>8}, Unhandled", .{ T, value, address }),
        },
        u8 => log.debug("Wrote {} 0x{X:0>2} to 0x{X:0>8}, Ignored.", .{ T, value, address }),
@@ -179,23 +179,30 @@ pub fn write(self: *Self, comptime T: type, word_count: u16, address: u32, value
    }
 }
-pub fn init(allocator: Allocator, cpu: *Arm7tdmi, rom_path: []const u8, save_path: ?[]const u8) !Self {
+pub fn init(allocator: Allocator, cpu: *Arm7tdmi, maybe_rom: ?[]const u8, maybe_save: ?[]const u8) !Self {
-    const file = try std.fs.cwd().openFile(rom_path, .{});
+    const Device = Gpio.Device;
    defer file.close();
-    const file_buf = try file.readToEndAlloc(allocator, try file.getEndPos());
+    const items: struct { []u8, [12]u8, Backup.Kind, Device.Kind } = if (maybe_rom) |file_path| blk: {
-    const title = file_buf[0xA0..0xAC].*;
+        const file = try std.fs.cwd().openFile(file_path, .{});
-    const kind = Backup.guess(file_buf);
+        defer file.close();
    const device = if (config.config().guest.force_rtc) .Rtc else guessDevice(file_buf);
-    logHeader(file_buf, &title);
+        const buffer = try file.readToEndAlloc(allocator, try file.getEndPos());
        const title = buffer[0xA0..0xAC];
        logHeader(buffer, title);
        const device_kind = if (config.config().guest.force_rtc) .Rtc else guessDevice(buffer);
        break :blk .{ buffer, title.*, Backup.guess(buffer), device_kind };
    } else .{ try allocator.alloc(u8, 0), [_]u8{0} ** 12, .None, .None };
    const title = items[1];
    return .{
-        .buf = file_buf,
+        .buf = items[0],
        .allocator = allocator,
        .title = title,
-        .backup = try Backup.init(allocator, kind, title, save_path),
+        .backup = try Backup.init(allocator, items[2], title, maybe_save),
-        .gpio = try Gpio.init(allocator, cpu, device),
+        .gpio = try Gpio.init(allocator, cpu, items[3]),
    };
 }
@@ -213,25 +220,24 @@ fn guessDevice(buf: []const u8) Gpio.Device.Kind {
    // Try to Guess if ROM uses RTC
    const needle = "RTC_V"; // I was told SIIRTC_V, though Pokemen Firered (USA) is a false negative
    // TODO: Use new for loop syntax?
    var i: usize = 0;
    while ((i + needle.len) < buf.len) : (i += 1) {
        if (std.mem.eql(u8, needle, buf[i..(i + needle.len)])) return .Rtc;
    }
    // TODO: Detect other GPIO devices
    return .None;
 }
 fn logHeader(buf: []const u8, title: *const [12]u8) void {
    const code = buf[0xAC..0xB0];
    const maker = buf[0xB0..0xB2];
    const version = buf[0xBC];
    log.info("Title: {s}", .{title});
    if (version != 0) log.info("Version: {}", .{version});
-    log.info("Game Code: {s}", .{code});
+
-    log.info("Maker Code: {s}", .{maker});
+    log.info("Game Code: {s}", .{buf[0xAC..0xB0]});
    log.info("Maker Code: {s}", .{buf[0xB0..0xB2]});
 }
 test "OOB Access" {
--- a/src/core/bus/Iwram.zig
+++ b/src/core/bus/Iwram.zig
@@ -27,7 +27,7 @@ pub fn write(self: *const Self, comptime T: type, address: usize, value: T) void
 pub fn init(allocator: Allocator) !Self {
    const buf = try allocator.alloc(u8, iwram_size);
-    std.mem.set(u8, buf, 0);
+    @memset(buf, 0);
    return Self{
        .buf = buf,
@@ -35,6 +35,10 @@ pub fn init(allocator: Allocator) !Self {
    };
 }
 pub fn reset(self: *Self) void {
    @memset(self.buf, 0);
 }
 pub fn deinit(self: *Self) void {
    self.allocator.free(self.buf);
    self.* = undefined;
--- a/src/core/bus/backup.zig
+++ b/src/core/bus/backup.zig
@@ -32,7 +32,7 @@ pub const Backup = struct {
    flash: Flash,
    eeprom: Eeprom,
-    const Kind = enum {
+    pub const Kind = enum {
        Eeprom,
        Sram,
        Flash,
@@ -77,7 +77,7 @@ pub const Backup = struct {
                switch (addr) {
                    0x0000 => if (self.kind == .Flash1M and self.flash.set_bank) {
-                        self.flash.bank = @truncate(u1, byte);
+                        self.flash.bank = @truncate(byte);
                    },
                    0x5555 => {
                        if (self.flash.state == .Command) {
@@ -110,7 +110,7 @@ pub const Backup = struct {
        };
        const buf = try allocator.alloc(u8, buf_size);
-        std.mem.set(u8, buf, 0xFF);
+        @memset(buf, 0xFF);
        var backup = Self{
            .buf = buf,
@@ -137,6 +137,7 @@ pub const Backup = struct {
        for (backup_kinds) |needle| {
            const needle_len = needle.str.len;
            // TODO: Use new for loop syntax?
            var i: usize = 0;
            while ((i + needle_len) < rom.len) : (i += 1) {
                if (std.mem.eql(u8, needle.str, rom[i..][0..needle_len])) return needle.kind;
@@ -162,7 +163,7 @@ pub const Backup = struct {
        switch (self.kind) {
            .Sram, .Flash, .Flash1M => {
                if (self.buf.len == file_buf.len) {
-                    std.mem.copy(u8, self.buf, file_buf);
+                    @memcpy(self.buf, file_buf);
                    return log.info("Loaded Save from {s}", .{file_path});
                }
@@ -173,7 +174,7 @@ pub const Backup = struct {
                    self.eeprom.kind = if (file_buf.len == 0x200) .Small else .Large;
                    self.buf = try allocator.alloc(u8, file_buf.len);
-                    std.mem.copy(u8, self.buf, file_buf);
+                    @memcpy(self.buf, file_buf);
                    return log.info("Loaded Save from {s}", .{file_path});
                }
--- a/src/core/bus/backup/Flash.zig
+++ b/src/core/bus/backup/Flash.zig
@@ -44,7 +44,7 @@ pub fn handleCommand(self: *Self, buf: []u8, byte: u8) void {
        0xB0 => self.set_bank = true,
        0x80 => self.prep_erase = true,
        0x10 => {
-            std.mem.set(u8, buf, 0xFF);
+            @memset(buf, 0xFF);
            self.prep_erase = false;
        },
        0xA0 => self.prep_write = true,
@@ -61,7 +61,7 @@ pub fn shouldEraseSector(self: *const Self, addr: usize, byte: u8) bool {
 pub fn erase(self: *Self, buf: []u8, sector: usize) void {
    const start = self.address() + (sector & 0xF000);
-    std.mem.set(u8, buf[start..][0..0x1000], 0xFF);
+    @memset(buf[start..][0..0x1000], 0xFF);
    self.prep_erase = false;
    self.state = .Ready;
 }
--- a/src/core/bus/backup/eeprom.zig
+++ b/src/core/bus/backup/eeprom.zig
@@ -58,7 +58,9 @@ pub const Eeprom = struct {
                    log.err("Failed to resize EEPROM buf to {} bytes", .{len});
                    std.debug.panic("EEPROM entered irrecoverable state {}", .{e});
                };
-                std.mem.set(u8, buf.*, 0xFF);
+
                // FIXME: ptr to a slice?
                @memset(buf.*, 0xFF);
            }
        }
@@ -106,7 +108,7 @@ pub const Eeprom = struct {
        switch (self.state) {
            .Ready => {
                if (self.writer.len() == 2) {
-                    const req = @intCast(u2, self.writer.finish());
+                    const req: u2 = @intCast(self.writer.finish());
                    switch (req) {
                        0b11 => self.state = .Read,
                        0b10 => self.state = .Write,
@@ -118,7 +120,7 @@ pub const Eeprom = struct {
                switch (self.kind) {
                    .Large => {
                        if (self.writer.len() == 14) {
-                            const addr = @intCast(u10, self.writer.finish());
+                            const addr: u10 = @intCast(self.writer.finish());
                            const value = std.mem.readIntSliceLittle(u64, buf[@as(u13, addr) * 8 ..][0..8]);
                            self.reader.configure(value);
@@ -128,7 +130,7 @@ pub const Eeprom = struct {
                    .Small => {
                        if (self.writer.len() == 6) {
                            // FIXME: Duplicated code from above
-                            const addr = @intCast(u6, self.writer.finish());
+                            const addr: u6 = @intCast(self.writer.finish());
                            const value = std.mem.readIntSliceLittle(u64, buf[@as(u13, addr) * 8 ..][0..8]);
                            self.reader.configure(value);
@@ -142,13 +144,13 @@ pub const Eeprom = struct {
                switch (self.kind) {
                    .Large => {
                        if (self.writer.len() == 14) {
-                            self.addr = @intCast(u10, self.writer.finish());
+                            self.addr = @as(u10, @intCast(self.writer.finish()));
                            self.state = .WriteTransfer;
                        }
                    },
                    .Small => {
                        if (self.writer.len() == 6) {
-                            self.addr = @intCast(u6, self.writer.finish());
+                            self.addr = @as(u6, @intCast(self.writer.finish()));
                            self.state = .WriteTransfer;
                        }
                    },
@@ -184,11 +186,9 @@ const Reader = struct {
    fn read(self: *Self) u1 {
        if (!self.enabled) return 1;
-        const bit = if (self.i < 4) blk: {
+        const bit: u1 = if (self.i < 4) 0 else blk: {
-            break :blk 0;
+            const idx: u6 = @intCast(63 - (self.i - 4));
-        } else blk: {
+            break :blk @truncate(self.data >> idx);
            const idx = @intCast(u6, 63 - (self.i - 4));
            break :blk @truncate(u1, self.data >> idx);
        };
        self.i = (self.i + 1) % (64 + 4);
@@ -200,11 +200,11 @@ const Reader = struct {
    fn dbgRead(self: *const Self) u1 {
        if (!self.enabled) return 1;
-        const bit = if (self.i < 4) blk: {
+        const bit: u1 = if (self.i < 4) blk: {
            break :blk 0;
        } else blk: {
-            const idx = @intCast(u6, 63 - (self.i - 4));
+            const idx: u6 = @intCast(63 - (self.i - 4));
-            break :blk @truncate(u1, self.data >> idx);
+            break :blk @truncate(self.data >> idx);
        };
        return bit;
@@ -228,7 +228,7 @@ const Writer = struct {
    }
    fn requestWrite(self: *Self, bit: u1) void {
-        const idx = @intCast(u1, 1 - self.i);
+        const idx: u1 = @intCast(1 - self.i);
        self.data = (self.data & ~(@as(u64, 1) << idx)) | (@as(u64, bit) << idx);
        self.i += 1;
    }
@@ -242,13 +242,13 @@ const Writer = struct {
            .Unknown => unreachable,
        };
-        const idx = @intCast(u4, size - self.i);
+        const idx: u4 = @intCast(size - self.i);
        self.data = (self.data & ~(@as(u64, 1) << idx)) | (@as(u64, bit) << idx);
        self.i += 1;
    }
    fn dataWrite(self: *Self, bit: u1) void {
-        const idx = @intCast(u6, 63 - self.i);
+        const idx: u6 = @intCast(63 - self.i);
        self.data = (self.data & ~(@as(u64, 1) << idx)) | (@as(u64, bit) << idx);
        self.i += 1;
    }
--- a/src/core/bus/dma.zig
+++ b/src/core/bus/dma.zig
@@ -3,7 +3,7 @@ const util = @import("../../util.zig");
 const DmaControl = @import("io.zig").DmaControl;
 const Bus = @import("../Bus.zig");
-const Arm7tdmi = @import("../cpu.zig").Arm7tdmi;
+const Arm7tdmi = @import("arm32").Arm7tdmi;
 pub const DmaTuple = struct { DmaController(0), DmaController(1), DmaController(2), DmaController(3) };
 const log = std.log.scoped(.DmaTransfer);
@@ -11,15 +11,16 @@ const log = std.log.scoped(.DmaTransfer);
 const getHalf = util.getHalf;
 const setHalf = util.setHalf;
 const setQuart = util.setQuart;
 const handleInterrupt = @import("../cpu_util.zig").handleInterrupt;
-const rotr = @import("../../util.zig").rotr;
+const rotr = @import("zba-util").rotr;
 pub fn create() DmaTuple {
    return .{ DmaController(0).init(), DmaController(1).init(), DmaController(2).init(), DmaController(3).init() };
 }
 pub fn read(comptime T: type, dma: *const DmaTuple, addr: u32) ?T {
-    const byte_addr = @truncate(u8, addr);
+    const byte_addr: u8 = @truncate(addr);
    return switch (T) {
        u32 => switch (byte_addr) {
@@ -54,19 +55,19 @@ pub fn read(comptime T: type, dma: *const DmaTuple, addr: u32) ?T {
        u8 => switch (byte_addr) {
            0xB0...0xB7 => null, // DMA0SAD, DMA0DAD
            0xB8, 0xB9 => 0x00, // DMA0CNT_L
-            0xBA, 0xBB => @truncate(T, dma.*[0].dmacntH() >> getHalf(byte_addr)),
+            0xBA, 0xBB => @truncate(dma.*[0].dmacntH() >> getHalf(byte_addr)),
            0xBC...0xC3 => null, // DMA1SAD, DMA1DAD
            0xC4, 0xC5 => 0x00, // DMA1CNT_L
-            0xC6, 0xC7 => @truncate(T, dma.*[1].dmacntH() >> getHalf(byte_addr)),
+            0xC6, 0xC7 => @truncate(dma.*[1].dmacntH() >> getHalf(byte_addr)),
            0xC8...0xCF => null, // DMA2SAD, DMA2DAD
            0xD0, 0xD1 => 0x00, // DMA2CNT_L
-            0xD2, 0xD3 => @truncate(T, dma.*[2].dmacntH() >> getHalf(byte_addr)),
+            0xD2, 0xD3 => @truncate(dma.*[2].dmacntH() >> getHalf(byte_addr)),
            0xD4...0xDB => null, // DMA3SAD, DMA3DAD
            0xDC, 0xDD => 0x00, // DMA3CNT_L
-            0xDE, 0xDF => @truncate(T, dma.*[3].dmacntH() >> getHalf(byte_addr)),
+            0xDE, 0xDF => @truncate(dma.*[3].dmacntH() >> getHalf(byte_addr)),
            else => util.io.read.err(T, log, "unexpected {} read from 0x{X:0>8}", .{ T, addr }),
        },
        else => @compileError("DMA: Unsupported read width"),
@@ -74,7 +75,7 @@ pub fn read(comptime T: type, dma: *const DmaTuple, addr: u32) ?T {
 }
 pub fn write(comptime T: type, dma: *DmaTuple, addr: u32, value: T) void {
-    const byte_addr = @truncate(u8, addr);
+    const byte_addr: u8 = @truncate(addr);
    switch (T) {
        u32 => switch (byte_addr) {
@@ -195,6 +196,10 @@ fn DmaController(comptime id: u2) type {
            };
        }
        pub fn reset(self: *Self) void {
            self.* = Self.init();
        }
        pub fn setDmasad(self: *Self, addr: u32) void {
            self.sad = addr & sad_mask;
        }
@@ -204,7 +209,7 @@ fn DmaController(comptime id: u2) type {
        }
        pub fn setDmacntL(self: *Self, halfword: u16) void {
-            self.word_count = @truncate(@TypeOf(self.word_count), halfword);
+            self.word_count = @truncate(halfword);
        }
        pub fn dmacntH(self: *const Self) u16 {
@@ -228,14 +233,16 @@ fn DmaController(comptime id: u2) type {
        }
        pub fn setDmacnt(self: *Self, word: u32) void {
-            self.setDmacntL(@truncate(u16, word));
+            self.setDmacntL(@truncate(word));
-            self.setDmacntH(@truncate(u16, word >> 16));
+            self.setDmacntH(@truncate(word >> 16));
        }
        pub fn step(self: *Self, cpu: *Arm7tdmi) void {
            const bus_ptr: *Bus = @ptrCast(@alignCast(cpu.bus.ptr));
            const is_fifo = (id == 1 or id == 2) and self.cnt.start_timing.read() == 0b11;
-            const sad_adj = @intToEnum(Adjustment, self.cnt.sad_adj.read());
+            const sad_adj: Adjustment = @enumFromInt(self.cnt.sad_adj.read());
-            const dad_adj = if (is_fifo) .Fixed else @intToEnum(Adjustment, self.cnt.dad_adj.read());
+            const dad_adj: Adjustment = if (is_fifo) .Fixed else @enumFromInt(self.cnt.dad_adj.read());
            const transfer_type = is_fifo or self.cnt.transfer_type.read();
            const offset: u32 = if (transfer_type) @sizeOf(u32) else @sizeOf(u16);
@@ -253,10 +260,10 @@ fn DmaController(comptime id: u2) type {
                    self.data_latch = value << 16 | value;
                }
-                cpu.bus.write(u16, dad_addr, @truncate(u16, rotr(u32, self.data_latch, 8 * (dad_addr & 3))));
+                cpu.bus.write(u16, dad_addr, @as(u16, @truncate(rotr(u32, self.data_latch, 8 * (dad_addr & 3)))));
            }
-            switch (@truncate(u8, sad_addr >> 24)) {
+            switch (@as(u8, @truncate(sad_addr >> 24))) {
                // according to fleroviux, DMAs with a source address in ROM misbehave
                // the resultant behaviour is that the source address will increment despite what DMAXCNT says
                0x08...0x0D => self.sad_latch +%= offset, // obscure behaviour
@@ -279,13 +286,13 @@ fn DmaController(comptime id: u2) type {
            if (self._word_count == 0) {
                if (self.cnt.irq.read()) {
                    switch (id) {
-                        0 => cpu.bus.io.irq.dma0.set(),
+                        0 => bus_ptr.io.irq.dma0.set(),
-                        1 => cpu.bus.io.irq.dma1.set(),
+                        1 => bus_ptr.io.irq.dma1.set(),
-                        2 => cpu.bus.io.irq.dma2.set(),
+                        2 => bus_ptr.io.irq.dma2.set(),
-                        3 => cpu.bus.io.irq.dma3.set(),
+                        3 => bus_ptr.io.irq.dma3.set(),
                    }
-                    cpu.handleInterrupt();
+                    handleInterrupt(cpu);
                }
                // If we're not repeating, Fire the IRQs and disable the DMA
@@ -314,7 +321,7 @@ fn DmaController(comptime id: u2) type {
            // Reload internal DAD latch if we are in IncrementRelaod
            if (self.in_progress) {
                self._word_count = if (self.word_count == 0) std.math.maxInt(@TypeOf(self._word_count)) else self.word_count;
-                if (@intToEnum(Adjustment, self.cnt.dad_adj.read()) == .IncrementReload) self.dad_latch = self.dad;
+                if (@as(Adjustment, @enumFromInt(self.cnt.dad_adj.read())) == .IncrementReload) self.dad_latch = self.dad;
            }
        }
@@ -338,11 +345,8 @@ fn DmaController(comptime id: u2) type {
    };
 }
-pub fn pollDmaOnBlank(bus: *Bus, comptime kind: DmaKind) void {
+pub fn onBlanking(bus: *Bus, comptime kind: DmaKind) void {
-    comptime var i: usize = 0;
+    inline for (0..4) |i| bus.dma[i].poll(kind);
    inline while (i < 4) : (i += 1) {
        bus.dma[i].poll(kind);
    }
 }
 const Adjustment = enum(u2) {
--- a/src/core/bus/gpio.zig
+++ b/src/core/bus/gpio.zig
@@ -2,9 +2,13 @@ const std = @import("std");
 const Bit = @import("bitfield").Bit;
 const DateTime = @import("datetime").datetime.Datetime;
-const Arm7tdmi = @import("../cpu.zig").Arm7tdmi;
+const Arm7tdmi = @import("arm32").Arm7tdmi;
 const Bus = @import("../Bus.zig");
 const Scheduler = @import("../scheduler.zig").Scheduler;
 const Allocator = std.mem.Allocator;
 const handleInterrupt = @import("../cpu_util.zig").handleInterrupt;
 /// GPIO Register Implementation
 pub const Gpio = struct {
    const Self = @This();
@@ -27,8 +31,8 @@ pub const Gpio = struct {
        fn step(self: *Device, value: u4) u4 {
            return switch (self.kind) {
                .Rtc => blk: {
-                    const clock = @ptrCast(*Clock, @alignCast(@alignOf(*Clock), self.ptr.?));
+                    const clock: *Clock = @ptrCast(@alignCast(self.ptr.?));
-                    break :blk clock.step(Clock.Data{ .raw = value });
+                    break :blk clock.step(.{ .raw = value });
                },
                .None => value,
            };
@@ -90,7 +94,7 @@ pub const Gpio = struct {
    pub fn deinit(self: *Self, allocator: Allocator) void {
        switch (self.device.kind) {
-            .Rtc => allocator.destroy(@ptrCast(*Clock, @alignCast(@alignOf(*Clock), self.device.ptr.?))),
+            .Rtc => allocator.destroy(@as(*Clock, @ptrCast(@alignCast(self.device.ptr.?)))),
            .None => {},
        }
@@ -142,16 +146,16 @@ pub const Clock = struct {
        /// 2. A `count`, which keeps track of which byte is currently being read
        /// 3. An index, which keeps track of which bit of the byte determined by `count` is being read
        fn read(self: *Reader, clock: *const Clock, register: Register) u1 {
-            const idx = @intCast(u3, self.i);
+            const idx: u3 = @intCast(self.i);
            defer self.i += 1;
            // FIXME: What do I do about the unused bits?
            return switch (register) {
-                .Control => @truncate(u1, switch (self.count) {
+                .Control => @truncate(switch (self.count) {
                    0 => clock.cnt.raw >> idx,
                    else => std.debug.panic("Tried to read from byte #{} of {} (hint: there's only 1 byte)", .{ self.count, register }),
                }),
-                .DateTime => @truncate(u1, switch (self.count) {
+                .DateTime => @truncate(switch (self.count) {
                    // Date
                    0 => clock.year >> idx,
                    1 => @as(u8, clock.month) >> idx,
@@ -164,7 +168,7 @@ pub const Clock = struct {
                    6 => @as(u8, clock.second) >> idx,
                    else => std.debug.panic("Tried to read from byte #{} of {} (hint: there's only 7 bytes)", .{ self.count, register }),
                }),
-                .Time => @truncate(u1, switch (self.count) {
+                .Time => @truncate(switch (self.count) {
                    0 => @as(u8, clock.hour) >> idx,
                    1 => @as(u8, clock.minute) >> idx,
                    2 => @as(u8, clock.second) >> idx,
@@ -203,7 +207,7 @@ pub const Clock = struct {
        /// Append a bit to the internal bit buffer (aka an integer)
        fn push(self: *Writer, value: u1) void {
-            const idx = @intCast(u3, self.i);
+            const idx: u3 = @intCast(self.i);
            self.buf = (self.buf & ~(@as(u8, 1) << idx)) | @as(u8, value) << idx;
            self.i += 1;
        }
@@ -286,20 +290,22 @@ pub const Clock = struct {
            .gpio = gpio, // Can't use Arm7tdmi ptr b/c not initialized yet
        };
-        cpu.sched.push(.RealTimeClock, 1 << 24); // Every Second
+        const sched_ptr: *Scheduler = @ptrCast(@alignCast(cpu.sched.ptr));
        sched_ptr.push(.RealTimeClock, 1 << 24); // Every Second
    }
    pub fn onClockUpdate(self: *Self, late: u64) void {
-        self.cpu.sched.push(.RealTimeClock, (1 << 24) -| late); // Reschedule
+        const sched_ptr: *Scheduler = @ptrCast(@alignCast(self.cpu.sched.ptr));
        sched_ptr.push(.RealTimeClock, (1 << 24) -| late); // Reschedule
        const now = DateTime.now();
-        self.year = bcd(u8, @intCast(u8, now.date.year - 2000));
+        self.year = bcd(@intCast(now.date.year - 2000));
-        self.month = bcd(u5, now.date.month);
+        self.month = @truncate(bcd(now.date.month));
-        self.day = bcd(u6, now.date.day);
+        self.day = @truncate(bcd(now.date.day));
-        self.weekday = bcd(u3, (now.date.weekday() + 1) % 7); // API is Monday = 0, Sunday = 6. We want Sunday = 0, Saturday = 6
+        self.weekday = @truncate(bcd((now.date.weekday() + 1) % 7)); // API is Monday = 0, Sunday = 6. We want Sunday = 0, Saturday = 6
-        self.hour = bcd(u6, now.time.hour);
+        self.hour = @truncate(bcd(now.time.hour));
-        self.minute = bcd(u7, now.time.minute);
+        self.minute = @truncate(bcd(now.time.minute));
-        self.second = bcd(u7, now.time.second);
+        self.second = @truncate(bcd(now.time.second));
    }
    fn step(self: *Self, value: Data) u4 {
@@ -315,14 +321,14 @@ pub const Clock = struct {
                    }
                }
-                break :blk @truncate(u4, value.raw);
+                break :blk @truncate(value.raw);
            },
            .Command => blk: {
                if (!value.cs.read()) log.err("Expected CS to be set during {}, however CS was cleared", .{self.state});
                // If SCK rises, sample SIO
                if (!cache.sck.read() and value.sck.read()) {
-                    self.writer.push(@boolToInt(value.sio.read()));
+                    self.writer.push(@intFromBool(value.sio.read()));
                    if (self.writer.finished()) {
                        self.state = self.processCommand(self.writer.buf);
@@ -332,14 +338,14 @@ pub const Clock = struct {
                    }
                }
-                break :blk @truncate(u4, value.raw);
+                break :blk @truncate(value.raw);
            },
            .Write => |register| blk: {
                if (!value.cs.read()) log.err("Expected CS to be set during {}, however CS was cleared", .{self.state});
                // If SCK rises, sample SIO
                if (!cache.sck.read() and value.sck.read()) {
-                    self.writer.push(@boolToInt(value.sio.read()));
+                    self.writer.push(@intFromBool(value.sio.read()));
                    const register_width: u32 = switch (register) {
                        .Control => 1,
@@ -358,7 +364,7 @@ pub const Clock = struct {
                    }
                }
-                break :blk @truncate(u4, value.raw);
+                break :blk @truncate(value.raw);
            },
            .Read => |register| blk: {
                if (!value.cs.read()) log.err("Expected CS to be set during {}, however CS was cleared", .{self.state});
@@ -384,7 +390,7 @@ pub const Clock = struct {
                    }
                }
-                break :blk @truncate(u4, ret.raw);
+                break :blk @truncate(ret.raw);
            },
        };
    }
@@ -397,11 +403,13 @@ pub const Clock = struct {
    }
    fn irq(self: *Self) void {
        const bus_ptr: *Bus = @ptrCast(@alignCast(self.cpu.bus.ptr));
        // TODO: Confirm that this is the right behaviour
        log.debug("Force GamePak IRQ", .{});
-        self.cpu.bus.io.irq.game_pak.set();
+        bus_ptr.io.irq.game_pak.set();
-        self.cpu.handleInterrupt();
+        handleInterrupt(self.cpu);
    }
    fn processCommand(self: *Self, raw_command: u8) State {
@@ -421,7 +429,7 @@ pub const Clock = struct {
        log.debug("Handling Command 0x{X:0>2} [0b{b:0>8}]", .{ command, command });
        const is_write = command & 1 == 0;
-        const rtc_register = @truncate(u3, command >> 1 & 0x7);
+        const rtc_register: u3 = @truncate(command >> 1 & 0x7);
        if (is_write) {
            return switch (rtc_register) {
@@ -449,16 +457,8 @@ pub const Clock = struct {
    }
 };
-fn bcd(comptime T: type, value: u8) T {
+/// Converts an 8-bit unsigned integer to its BCD representation.
-    var input = value;
+/// Note: Algorithm only works for values between 0 and 99 inclusive.
-    var ret: u8 = 0;
+fn bcd(value: u8) u8 {
-    var shift: u3 = 0;
+    return ((value / 10) << 4) + (value % 10);
    while (input > 0) {
        ret |= (input % 10) << (shift << 2);
        shift += 1;
        input /= 10;
    }
    return @truncate(T, ret);
 }
--- a/src/core/bus/io.zig
+++ b/src/core/bus/io.zig
@@ -38,9 +38,13 @@ pub const Io = struct {
        };
    }
    pub fn reset(self: *Self) void {
        self.* = Self.init();
    }
    fn setIrqs(self: *Io, word: u32) void {
-        self.ie.raw = @truncate(u16, word);
+        self.ie.raw = @truncate(word);
-        self.irq.raw &= ~@truncate(u16, word >> 16);
+        self.irq.raw &= ~@as(u16, @truncate(word >> 16));
    }
 };
@@ -71,8 +75,8 @@ pub fn read(bus: *const Bus, comptime T: type, address: u32) ?T {
            // Interrupts
            0x0400_0200 => @as(u32, bus.io.irq.raw) << 16 | bus.io.ie.raw,
            0x0400_0204 => bus.io.waitcnt.raw,
-            0x0400_0208 => @boolToInt(bus.io.ime),
+            0x0400_0208 => @intFromBool(bus.io.ime),
-            0x0400_0300 => @enumToInt(bus.io.postflg),
+            0x0400_0300 => @intFromEnum(bus.io.postflg),
            else => util.io.read.undef(T, log, "Tried to perform a {} read to 0x{X:0>8}", .{ T, address }),
        },
        u16 => switch (address) {
@@ -92,7 +96,7 @@ pub fn read(bus: *const Bus, comptime T: type, address: u32) ?T {
            0x0400_0128 => util.io.read.todo(log, "Read {} from SIOCNT", .{T}),
            // Keypad Input
-            0x0400_0130 => bus.io.keyinput.load(.Monotonic).raw,
+            0x0400_0130 => bus.io.keyinput.load(.Monotonic),
            // Serial Communication 2
            0x0400_0134 => util.io.read.todo(log, "Read {} from RCNT", .{T}),
@@ -105,9 +109,9 @@ pub fn read(bus: *const Bus, comptime T: type, address: u32) ?T {
            0x0400_0202 => bus.io.irq.raw,
            0x0400_0204 => bus.io.waitcnt.raw,
            0x0400_0206 => 0x0000,
-            0x0400_0208 => @boolToInt(bus.io.ime),
+            0x0400_0208 => @intFromBool(bus.io.ime),
            0x0400_020A => 0x0000,
-            0x0400_0300 => @enumToInt(bus.io.postflg),
+            0x0400_0300 => @intFromEnum(bus.io.postflg),
            0x0400_0302 => 0x0000,
            else => util.io.read.undef(T, log, "Tried to perform a {} read to 0x{X:0>8}", .{ T, address }),
        },
@@ -137,13 +141,13 @@ pub fn read(bus: *const Bus, comptime T: type, address: u32) ?T {
            0x0400_015A, 0x0400_015B => 0x00,
            // Interrupts
-            0x0400_0200, 0x0400_0201 => @truncate(T, bus.io.ie.raw >> getHalf(@truncate(u8, address))),
+            0x0400_0200, 0x0400_0201 => @truncate(bus.io.ie.raw >> getHalf(@truncate(address))),
-            0x0400_0202, 0x0400_0203 => @truncate(T, bus.io.irq.raw >> getHalf(@truncate(u8, address))),
+            0x0400_0202, 0x0400_0203 => @truncate(bus.io.irq.raw >> getHalf(@truncate(address))),
-            0x0400_0204, 0x0400_0205 => @truncate(T, bus.io.waitcnt.raw >> getHalf(@truncate(u8, address))),
+            0x0400_0204, 0x0400_0205 => @truncate(bus.io.waitcnt.raw >> getHalf(@truncate(address))),
            0x0400_0206, 0x0400_0207 => 0x00,
-            0x0400_0208, 0x0400_0209 => @truncate(T, @as(u16, @boolToInt(bus.io.ime)) >> getHalf(@truncate(u8, address))),
+            0x0400_0208, 0x0400_0209 => @truncate(@as(u16, @intFromBool(bus.io.ime)) >> getHalf(@truncate(address))),
            0x0400_020A, 0x0400_020B => 0x00,
-            0x0400_0300 => @enumToInt(bus.io.postflg),
+            0x0400_0300 => @intFromEnum(bus.io.postflg),
            0x0400_0301 => null,
            0x0400_0302, 0x0400_0303 => 0x00,
            else => util.io.read.undef(T, log, "Tried to perform a {} read to 0x{X:0>8}", .{ T, address }),
@@ -192,10 +196,10 @@ pub fn write(bus: *Bus, comptime T: type, address: u32, value: T) void {
            // Interrupts
            0x0400_0200 => bus.io.setIrqs(value),
-            0x0400_0204 => bus.io.waitcnt.set(@truncate(u16, value)),
+            0x0400_0204 => bus.io.waitcnt.set(@truncate(value)),
            0x0400_0208 => bus.io.ime = value & 1 == 1,
            0x0400_0300 => {
-                bus.io.postflg = @intToEnum(PostFlag, value & 1);
+                bus.io.postflg = @enumFromInt(value & 1);
                bus.io.haltcnt = if (value >> 15 & 1 == 0) .Halt else @panic("TODO: Implement STOP");
            },
            else => util.io.write.undef(log, "Tried to write 0x{X:0>8}{} to 0x{X:0>8}", .{ value, T, address }),
@@ -242,7 +246,7 @@ pub fn write(bus: *Bus, comptime T: type, address: u32, value: T) void {
            0x0400_0208 => bus.io.ime = value & 1 == 1,
            0x0400_020A => {},
            0x0400_0300 => {
-                bus.io.postflg = @intToEnum(PostFlag, value & 1);
+                bus.io.postflg = @enumFromInt(value & 1);
                bus.io.haltcnt = if (value >> 15 & 1 == 0) .Halt else @panic("TODO: Implement STOP");
            },
            else => util.io.write.undef(log, "Tried to write 0x{X:0>4}{} to 0x{X:0>8}", .{ value, T, address }),
@@ -269,16 +273,16 @@ pub fn write(bus: *Bus, comptime T: type, address: u32, value: T) void {
            0x0400_0140 => log.debug("Wrote 0x{X:0>2} to JOYCNT_L", .{value}),
            // Interrupts
-            0x0400_0200, 0x0400_0201 => bus.io.ie.raw = setHalf(u16, bus.io.ie.raw, @truncate(u8, address), value),
+            0x0400_0200, 0x0400_0201 => bus.io.ie.raw = setHalf(u16, bus.io.ie.raw, @truncate(address), value),
            0x0400_0202 => bus.io.irq.raw &= ~@as(u16, value),
            0x0400_0203 => bus.io.irq.raw &= ~@as(u16, value) << 8, // TODO: Is this good?
-            0x0400_0204, 0x0400_0205 => bus.io.waitcnt.set(setHalf(u16, @truncate(u16, bus.io.waitcnt.raw), @truncate(u8, address), value)),
+            0x0400_0204, 0x0400_0205 => bus.io.waitcnt.set(setHalf(u16, bus.io.waitcnt.raw, @truncate(address), value)),
            0x0400_0206, 0x0400_0207 => {},
            0x0400_0208 => bus.io.ime = value & 1 == 1,
            0x0400_0209 => {},
            0x0400_020A, 0x0400_020B => {},
-            0x0400_0300 => bus.io.postflg = @intToEnum(PostFlag, value & 1),
+            0x0400_0300 => bus.io.postflg = @enumFromInt(value & 1),
            0x0400_0301 => bus.io.haltcnt = if (value >> 7 & 1 == 0) .Halt else std.debug.panic("TODO: Implement STOP", .{}),
            0x0400_0410 => log.debug("Wrote 0x{X:0>2} to the common yet undocumented 0x{X:0>8}", .{ value, address }),
@@ -346,10 +350,10 @@ const InterruptEnable = extern union {
    vblank: Bit(u16, 0),
    hblank: Bit(u16, 1),
    coincidence: Bit(u16, 2),
-    tm0_overflow: Bit(u16, 3),
+    tim0: Bit(u16, 3),
-    tm1_overflow: Bit(u16, 4),
+    tim1: Bit(u16, 4),
-    tm2_overflow: Bit(u16, 5),
+    tim2: Bit(u16, 5),
-    tm3_overflow: Bit(u16, 6),
+    tim3: Bit(u16, 6),
    serial: Bit(u16, 7),
    dma0: Bit(u16, 8),
    dma1: Bit(u16, 9),
@@ -362,7 +366,7 @@ const InterruptEnable = extern union {
 /// Read Only
 /// 0 = Pressed, 1 = Released
-const KeyInput = extern union {
+pub const KeyInput = extern union {
    a: Bit(u16, 0),
    b: Bit(u16, 1),
    select: Bit(u16, 2),
@@ -386,18 +390,19 @@ const AtomicKeyInput = struct {
        return .{ .inner = value };
    }
-    pub inline fn load(self: *const Self, comptime ordering: Ordering) KeyInput {
+    pub inline fn load(self: *const Self, comptime ordering: Ordering) u16 {
-        return .{ .raw = switch (ordering) {
+        return switch (ordering) {
            .AcqRel, .Release => @compileError("not supported for atomic loads"),
            else => @atomicLoad(u16, &self.inner.raw, ordering),
-        } };
+        };
    }
-    pub inline fn store(self: *Self, value: u16, comptime ordering: Ordering) void {
+    pub inline fn fetchOr(self: *Self, value: u16, comptime ordering: Ordering) void {
-        switch (ordering) {
+        _ = @atomicRmw(u16, &self.inner.raw, .Or, value, ordering);
-            .AcqRel, .Acquire => @compileError("not supported for atomic stores"),
+    }
-            else => @atomicStore(u16, &self.inner.raw, value, ordering),
+
-        }
+    pub inline fn fetchAnd(self: *Self, value: u16, comptime ordering: Ordering) void {
        _ = @atomicRmw(u16, &self.inner.raw, .And, value, ordering);
    }
 };
@@ -449,6 +454,8 @@ pub const BldY = extern union {
    raw: u16,
 };
 const u8WriteKind = enum { Hi, Lo };
 /// Write-only
 pub const WinH = extern union {
    x2: Bitfield(u16, 0, 8),
@@ -458,6 +465,8 @@ pub const WinH = extern union {
 /// Write-only
 pub const WinV = extern union {
    const Self = @This();
    y2: Bitfield(u16, 0, 8),
    y1: Bitfield(u16, 8, 8),
    raw: u16,
@@ -466,20 +475,20 @@ pub const WinV = extern union {
 pub const WinIn = extern union {
    w0_bg: Bitfield(u16, 0, 4),
    w0_obj: Bit(u16, 4),
-    w0_colour: Bit(u16, 5),
+    w0_bld: Bit(u16, 5),
    w1_bg: Bitfield(u16, 8, 4),
    w1_obj: Bit(u16, 12),
-    w1_colour: Bit(u16, 13),
+    w1_bld: Bit(u16, 13),
    raw: u16,
 };
 pub const WinOut = extern union {
    out_bg: Bitfield(u16, 0, 4),
    out_obj: Bit(u16, 4),
-    out_colour: Bit(u16, 5),
+    out_bld: Bit(u16, 5),
    obj_bg: Bitfield(u16, 8, 4),
    obj_obj: Bit(u16, 12),
-    obj_colour: Bit(u16, 13),
+    obj_bld: Bit(u16, 13),
    raw: u16,
 };
--- a/src/core/bus/timer.zig
+++ b/src/core/bus/timer.zig
@@ -3,7 +3,10 @@ const util = @import("../../util.zig");
 const TimerControl = @import("io.zig").TimerControl;
 const Scheduler = @import("../scheduler.zig").Scheduler;
-const Arm7tdmi = @import("../cpu.zig").Arm7tdmi;
+const Arm7tdmi = @import("arm32").Arm7tdmi;
 const Bus = @import("../Bus.zig");
 const handleInterrupt = @import("../cpu_util.zig").handleInterrupt;
 pub const TimerTuple = struct { Timer(0), Timer(1), Timer(2), Timer(3) };
 const log = std.log.scoped(.Timer);
@@ -16,7 +19,7 @@ pub fn create(sched: *Scheduler) TimerTuple {
 }
 pub fn read(comptime T: type, tim: *const TimerTuple, addr: u32) ?T {
-    const nybble_addr = @truncate(u4, addr);
+    const nybble_addr: u4 = @truncate(addr);
    return switch (T) {
        u32 => switch (nybble_addr) {
@@ -41,24 +44,24 @@ pub fn read(comptime T: type, tim: *const TimerTuple, addr: u32) ?T {
            else => util.io.read.err(T, log, "unaligned {} read from 0x{X:0>8}", .{ T, addr }),
        },
        u8 => switch (nybble_addr) {
-            0x0, 0x1 => @truncate(T, tim.*[0].timcntL() >> getHalf(nybble_addr)),
+            0x0, 0x1 => @truncate(tim.*[0].timcntL() >> getHalf(nybble_addr)),
-            0x2, 0x3 => @truncate(T, tim.*[0].cnt.raw >> getHalf(nybble_addr)),
+            0x2, 0x3 => @truncate(tim.*[0].cnt.raw >> getHalf(nybble_addr)),
-            0x4, 0x5 => @truncate(T, tim.*[1].timcntL() >> getHalf(nybble_addr)),
+            0x4, 0x5 => @truncate(tim.*[1].timcntL() >> getHalf(nybble_addr)),
-            0x6, 0x7 => @truncate(T, tim.*[1].cnt.raw >> getHalf(nybble_addr)),
+            0x6, 0x7 => @truncate(tim.*[1].cnt.raw >> getHalf(nybble_addr)),
-            0x8, 0x9 => @truncate(T, tim.*[2].timcntL() >> getHalf(nybble_addr)),
+            0x8, 0x9 => @truncate(tim.*[2].timcntL() >> getHalf(nybble_addr)),
-            0xA, 0xB => @truncate(T, tim.*[2].cnt.raw >> getHalf(nybble_addr)),
+            0xA, 0xB => @truncate(tim.*[2].cnt.raw >> getHalf(nybble_addr)),
-            0xC, 0xD => @truncate(T, tim.*[3].timcntL() >> getHalf(nybble_addr)),
+            0xC, 0xD => @truncate(tim.*[3].timcntL() >> getHalf(nybble_addr)),
-            0xE, 0xF => @truncate(T, tim.*[3].cnt.raw >> getHalf(nybble_addr)),
+            0xE, 0xF => @truncate(tim.*[3].cnt.raw >> getHalf(nybble_addr)),
        },
        else => @compileError("TIM: Unsupported read width"),
    };
 }
 pub fn write(comptime T: type, tim: *TimerTuple, addr: u32, value: T) void {
-    const nybble_addr = @truncate(u4, addr);
+    const nybble_addr: u4 = @truncate(addr);
    return switch (T) {
        u32 => switch (nybble_addr) {
@@ -128,11 +131,17 @@ fn Timer(comptime id: u2) type {
            };
        }
        pub fn reset(self: *Self) void {
            const scheduler = self.sched;
            self.* = Self.init(scheduler);
        }
        /// TIMCNT_L Getter
        pub fn timcntL(self: *const Self) u16 {
            if (self.cnt.cascade.read() or !self.cnt.enabled.read()) return self._counter;
-            return self._counter +% @truncate(u16, (self.sched.now() - self._start_timestamp) / self.frequency());
+            return self._counter +% @as(u16, @truncate((self.sched.now() - self._start_timestamp) / self.frequency()));
        }
        /// TIMCNT_L Setter
@@ -142,8 +151,8 @@ fn Timer(comptime id: u2) type {
        /// TIMCNT_L & TIMCNT_H
        pub fn setTimcnt(self: *Self, word: u32) void {
-            self.setTimcntL(@truncate(u16, word));
+            self.setTimcntL(@truncate(word));
-            self.setTimcntH(@truncate(u16, word >> 16));
+            self.setTimcntH(@truncate(word >> 16));
        }
        /// TIMCNT_H
@@ -158,7 +167,7 @@ fn Timer(comptime id: u2) type {
                    self.sched.removeScheduledEvent(.{ .TimerOverflow = id });
                    // Counter should hold the value it stopped at meaning we have to calculate it now
-                    self._counter +%= @truncate(u16, (self.sched.now() - self._start_timestamp) / self.frequency());
+                    self._counter +%= @truncate((self.sched.now() - self._start_timestamp) / self.frequency());
                }
                // the timer has always been enabled, but the cascade bit which was blocking the timer has been unset
@@ -185,7 +194,9 @@ fn Timer(comptime id: u2) type {
        pub fn onTimerExpire(self: *Self, cpu: *Arm7tdmi, late: u64) void {
            // Fire IRQ if enabled
-            const io = &cpu.bus.io;
+            const bus_ptr: *Bus = @ptrCast(@alignCast(cpu.bus.ptr));
            const io = &bus_ptr.io;
            if (self.cnt.irq.read()) {
                switch (id) {
@@ -195,12 +206,12 @@ fn Timer(comptime id: u2) type {
                    3 => io.irq.tim3.set(),
                }
-                cpu.handleInterrupt();
+                handleInterrupt(cpu);
            }
            // DMA Sound Things
            if (id == 0 or id == 1) {
-                cpu.bus.apu.onDmaAudioSampleRequest(cpu, id);
+                bus_ptr.apu.onDmaAudioSampleRequest(cpu, id);
            }
            // Perform Cascade Behaviour
@@ -208,9 +219,9 @@ fn Timer(comptime id: u2) type {
                inline 0, 1, 2 => |idx| {
                    const next = idx + 1;
-                    if (cpu.bus.tim[next].cnt.cascade.read()) {
+                    if (bus_ptr.tim[next].cnt.cascade.read()) {
-                        cpu.bus.tim[next]._counter +%= 1;
+                        bus_ptr.tim[next]._counter +%= 1;
-                        if (cpu.bus.tim[next]._counter == 0) cpu.bus.tim[next].onTimerExpire(cpu, late);
+                        if (bus_ptr.tim[next]._counter == 0) bus_ptr.tim[next].onTimerExpire(cpu, late);
                    }
                },
                3 => {}, // THere is no timer for TIM3 to cascade to
--- a/src/core/cpu.zig
+++ b/src/core/cpu.zig
@@ -1,678 +0,0 @@
 const std = @import("std");
 const Bus = @import("Bus.zig");
 const Bit = @import("bitfield").Bit;
 const Bitfield = @import("bitfield").Bitfield;
 const Scheduler = @import("scheduler.zig").Scheduler;
 const Logger = @import("../util.zig").Logger;
 const File = std.fs.File;
 const log = std.log.scoped(.Arm7Tdmi);
 // ARM Instructions
 pub const arm = struct {
    pub const InstrFn = *const fn (*Arm7tdmi, *Bus, u32) void;
    const lut: [0x1000]InstrFn = populate();
    const processing = @import("cpu/arm/data_processing.zig").dataProcessing;
    const psrTransfer = @import("cpu/arm/psr_transfer.zig").psrTransfer;
    const transfer = @import("cpu/arm/single_data_transfer.zig").singleDataTransfer;
    const halfSignedTransfer = @import("cpu/arm/half_signed_data_transfer.zig").halfAndSignedDataTransfer;
    const blockTransfer = @import("cpu/arm/block_data_transfer.zig").blockDataTransfer;
    const branch = @import("cpu/arm/branch.zig").branch;
    const branchExchange = @import("cpu/arm/branch.zig").branchAndExchange;
    const swi = @import("cpu/arm/software_interrupt.zig").armSoftwareInterrupt;
    const swap = @import("cpu/arm/single_data_swap.zig").singleDataSwap;
    const multiply = @import("cpu/arm/multiply.zig").multiply;
    const multiplyLong = @import("cpu/arm/multiply.zig").multiplyLong;
    /// Determine index into ARM InstrFn LUT
    fn idx(opcode: u32) u12 {
        return @truncate(u12, opcode >> 20 & 0xFF) << 4 | @truncate(u12, opcode >> 4 & 0xF);
    }
    // Undefined ARM Instruction handler
    fn und(cpu: *Arm7tdmi, _: *Bus, opcode: u32) void {
        const id = idx(opcode);
        cpu.panic("[CPU/Decode] ID: 0x{X:0>3} 0x{X:0>8} is an illegal opcode", .{ id, opcode });
    }
    fn populate() [0x1000]InstrFn {
        return comptime {
            @setEvalBranchQuota(0xE000);
            var ret = [_]InstrFn{und} ** 0x1000;
            var i: usize = 0;
            while (i < ret.len) : (i += 1) {
                ret[i] = switch (@as(u2, i >> 10)) {
                    0b00 => if (i == 0x121) blk: {
                        break :blk branchExchange;
                    } else if (i & 0xFCF == 0x009) blk: {
                        const A = i >> 5 & 1 == 1;
                        const S = i >> 4 & 1 == 1;
                        break :blk multiply(A, S);
                    } else if (i & 0xFBF == 0x109) blk: {
                        const B = i >> 6 & 1 == 1;
                        break :blk swap(B);
                    } else if (i & 0xF8F == 0x089) blk: {
                        const U = i >> 6 & 1 == 1;
                        const A = i >> 5 & 1 == 1;
                        const S = i >> 4 & 1 == 1;
                        break :blk multiplyLong(U, A, S);
                    } else if (i & 0xE49 == 0x009 or i & 0xE49 == 0x049) blk: {
                        const P = i >> 8 & 1 == 1;
                        const U = i >> 7 & 1 == 1;
                        const I = i >> 6 & 1 == 1;
                        const W = i >> 5 & 1 == 1;
                        const L = i >> 4 & 1 == 1;
                        break :blk halfSignedTransfer(P, U, I, W, L);
                    } else if (i & 0xD90 == 0x100) blk: {
                        const I = i >> 9 & 1 == 1;
                        const R = i >> 6 & 1 == 1;
                        const kind = i >> 4 & 0x3;
                        break :blk psrTransfer(I, R, kind);
                    } else blk: {
                        const I = i >> 9 & 1 == 1;
                        const S = i >> 4 & 1 == 1;
                        const instrKind = i >> 5 & 0xF;
                        break :blk processing(I, S, instrKind);
                    },
                    0b01 => if (i >> 9 & 1 == 1 and i & 1 == 1) und else blk: {
                        const I = i >> 9 & 1 == 1;
                        const P = i >> 8 & 1 == 1;
                        const U = i >> 7 & 1 == 1;
                        const B = i >> 6 & 1 == 1;
                        const W = i >> 5 & 1 == 1;
                        const L = i >> 4 & 1 == 1;
                        break :blk transfer(I, P, U, B, W, L);
                    },
                    else => switch (@as(u2, i >> 9 & 0x3)) {
                        // MSB is guaranteed to be 1
                        0b00 => blk: {
                            const P = i >> 8 & 1 == 1;
                            const U = i >> 7 & 1 == 1;
                            const S = i >> 6 & 1 == 1;
                            const W = i >> 5 & 1 == 1;
                            const L = i >> 4 & 1 == 1;
                            break :blk blockTransfer(P, U, S, W, L);
                        },
                        0b01 => blk: {
                            const L = i >> 8 & 1 == 1;
                            break :blk branch(L);
                        },
                        0b10 => und, // COP Data Transfer
                        0b11 => if (i >> 8 & 1 == 1) swi() else und, // COP Data Operation + Register Transfer
                    },
                };
            }
            return ret;
        };
    }
 };
 // THUMB Instructions
 pub const thumb = struct {
    pub const InstrFn = *const fn (*Arm7tdmi, *Bus, u16) void;
    const lut: [0x400]InstrFn = populate();
    const processing = @import("cpu/thumb/data_processing.zig");
    const alu = @import("cpu/thumb/alu.zig").fmt4;
    const transfer = @import("cpu/thumb/data_transfer.zig");
    const block_transfer = @import("cpu/thumb/block_data_transfer.zig");
    const swi = @import("cpu/thumb/software_interrupt.zig").fmt17;
    const branch = @import("cpu/thumb/branch.zig");
    /// Determine index into THUMB InstrFn LUT
    fn idx(opcode: u16) u10 {
        return @truncate(u10, opcode >> 6);
    }
    /// Undefined THUMB Instruction Handler
    fn und(cpu: *Arm7tdmi, _: *Bus, opcode: u16) void {
        const id = idx(opcode);
        cpu.panic("[CPU/Decode] ID: 0b{b:0>10} 0x{X:0>2} is an illegal opcode", .{ id, opcode });
    }
    fn populate() [0x400]InstrFn {
        return comptime {
            @setEvalBranchQuota(5025); // This is exact
            var ret = [_]InstrFn{und} ** 0x400;
            var i: usize = 0;
            while (i < ret.len) : (i += 1) {
                ret[i] = switch (@as(u3, i >> 7 & 0x7)) {
                    0b000 => if (i >> 5 & 0x3 == 0b11) blk: {
                        const I = i >> 4 & 1 == 1;
                        const is_sub = i >> 3 & 1 == 1;
                        const rn = i & 0x7;
                        break :blk processing.fmt2(I, is_sub, rn);
                    } else blk: {
                        const op = i >> 5 & 0x3;
                        const offset = i & 0x1F;
                        break :blk processing.fmt1(op, offset);
                    },
                    0b001 => blk: {
                        const op = i >> 5 & 0x3;
                        const rd = i >> 2 & 0x7;
                        break :blk processing.fmt3(op, rd);
                    },
                    0b010 => switch (@as(u2, i >> 5 & 0x3)) {
                        0b00 => if (i >> 4 & 1 == 1) blk: {
                            const op = i >> 2 & 0x3;
                            const h1 = i >> 1 & 1;
                            const h2 = i & 1;
                            break :blk processing.fmt5(op, h1, h2);
                        } else blk: {
                            const op = i & 0xF;
                            break :blk alu(op);
                        },
                        0b01 => blk: {
                            const rd = i >> 2 & 0x7;
                            break :blk transfer.fmt6(rd);
                        },
                        else => blk: {
                            const op = i >> 4 & 0x3;
                            const T = i >> 3 & 1 == 1;
                            break :blk transfer.fmt78(op, T);
                        },
                    },
                    0b011 => blk: {
                        const B = i >> 6 & 1 == 1;
                        const L = i >> 5 & 1 == 1;
                        const offset = i & 0x1F;
                        break :blk transfer.fmt9(B, L, offset);
                    },
                    else => switch (@as(u3, i >> 6 & 0x7)) {
                        // MSB is guaranteed to be 1
                        0b000 => blk: {
                            const L = i >> 5 & 1 == 1;
                            const offset = i & 0x1F;
                            break :blk transfer.fmt10(L, offset);
                        },
                        0b001 => blk: {
                            const L = i >> 5 & 1 == 1;
                            const rd = i >> 2 & 0x7;
                            break :blk transfer.fmt11(L, rd);
                        },
                        0b010 => blk: {
                            const isSP = i >> 5 & 1 == 1;
                            const rd = i >> 2 & 0x7;
                            break :blk processing.fmt12(isSP, rd);
                        },
                        0b011 => if (i >> 4 & 1 == 1) blk: {
                            const L = i >> 5 & 1 == 1;
                            const R = i >> 2 & 1 == 1;
                            break :blk block_transfer.fmt14(L, R);
                        } else blk: {
                            const S = i >> 1 & 1 == 1;
                            break :blk processing.fmt13(S);
                        },
                        0b100 => blk: {
                            const L = i >> 5 & 1 == 1;
                            const rb = i >> 2 & 0x7;
                            break :blk block_transfer.fmt15(L, rb);
                        },
                        0b101 => if (i >> 2 & 0xF == 0b1111) blk: {
                            break :blk thumb.swi();
                        } else blk: {
                            const cond = i >> 2 & 0xF;
                            break :blk branch.fmt16(cond);
                        },
                        0b110 => branch.fmt18(),
                        0b111 => blk: {
                            const is_low = i >> 5 & 1 == 1;
                            break :blk branch.fmt19(is_low);
                        },
                    },
                };
            }
            return ret;
        };
    }
 };
 pub const Arm7tdmi = struct {
    const Self = @This();
    r: [16]u32,
    pipe: Pipeline,
    sched: *Scheduler,
    bus: *Bus,
    cpsr: PSR,
    spsr: PSR,
    bank: Bank,
    logger: ?Logger,
    /// Bank of Registers from other CPU Modes
    const Bank = struct {
        /// Storage for r13_<mode>, r14_<mode>
        /// e.g. [r13, r14, r13_svc, r14_svc]
        r: [2 * 6]u32,
        /// Storage  for R8_fiq -> R12_fiq and their normal counterparts
        /// e.g [r[0 + 8], fiq_r[0 + 8], r[1 + 8], fiq_r[1 + 8]...]
        fiq: [2 * 5]u32,
        spsr: [5]PSR,
        const Kind = enum(u1) {
            R13 = 0,
            R14,
        };
        pub fn create() Bank {
            return .{
                .r = [_]u32{0x00} ** 12,
                .fiq = [_]u32{0x00} ** 10,
                .spsr = [_]PSR{.{ .raw = 0x0000_0000 }} ** 5,
            };
        }
        inline fn regIdx(mode: Mode, kind: Kind) usize {
            const idx: usize = switch (mode) {
                .User, .System => 0,
                .Supervisor => 1,
                .Abort => 2,
                .Undefined => 3,
                .Irq => 4,
                .Fiq => 5,
            };
            return (idx * 2) + if (kind == .R14) @as(usize, 1) else 0;
        }
        inline fn spsrIdx(mode: Mode) usize {
            return switch (mode) {
                .Supervisor => 0,
                .Abort => 1,
                .Undefined => 2,
                .Irq => 3,
                .Fiq => 4,
                else => std.debug.panic("[CPU/Mode] {} does not have a SPSR Register", .{mode}),
            };
        }
        inline fn fiqIdx(i: usize, mode: Mode) usize {
            return (i * 2) + if (mode == .Fiq) @as(usize, 1) else 0;
        }
    };
    pub fn init(sched: *Scheduler, bus: *Bus, log_file: ?std.fs.File) Self {
        return Self{
            .r = [_]u32{0x00} ** 16,
            .pipe = Pipeline.init(),
            .sched = sched,
            .bus = bus,
            .cpsr = .{ .raw = 0x0000_001F },
            .spsr = .{ .raw = 0x0000_0000 },
            .bank = Bank.create(),
            .logger = if (log_file) |file| Logger.init(file) else null,
        };
    }
    pub inline fn hasSPSR(self: *const Self) bool {
        const mode = getModeChecked(self, self.cpsr.mode.read());
        return switch (mode) {
            .System, .User => false,
            else => true,
        };
    }
    pub inline fn isPrivileged(self: *const Self) bool {
        const mode = getModeChecked(self, self.cpsr.mode.read());
        return switch (mode) {
            .User => false,
            else => true,
        };
    }
    pub inline fn isHalted(self: *const Self) bool {
        return self.bus.io.haltcnt == .Halt;
    }
    pub fn setCpsr(self: *Self, value: u32) void {
        if (value & 0x1F != self.cpsr.raw & 0x1F) self.changeModeFromIdx(@truncate(u5, value & 0x1F));
        self.cpsr.raw = value;
    }
    fn changeModeFromIdx(self: *Self, next: u5) void {
        self.changeMode(getModeChecked(self, next));
    }
    pub fn setUserModeRegister(self: *Self, idx: usize, value: u32) void {
        const current = getModeChecked(self, self.cpsr.mode.read());
        switch (idx) {
            8...12 => {
                if (current == .Fiq) {
                    self.bank.fiq[Bank.fiqIdx(idx - 8, .User)] = value;
                } else self.r[idx] = value;
            },
            13, 14 => switch (current) {
                .User, .System => self.r[idx] = value,
                else => {
                    const kind = std.meta.intToEnum(Bank.Kind, idx - 13) catch unreachable;
                    self.bank.r[Bank.regIdx(.User, kind)] = value;
                },
            },
            else => self.r[idx] = value, // R0 -> R7  and R15
        }
    }
    pub fn getUserModeRegister(self: *Self, idx: usize) u32 {
        const current = getModeChecked(self, self.cpsr.mode.read());
        return switch (idx) {
            8...12 => if (current == .Fiq) self.bank.fiq[Bank.fiqIdx(idx - 8, .User)] else self.r[idx],
            13, 14 => switch (current) {
                .User, .System => self.r[idx],
                else => blk: {
                    const kind = std.meta.intToEnum(Bank.Kind, idx - 13) catch unreachable;
                    break :blk self.bank.r[Bank.regIdx(.User, kind)];
                },
            },
            else => self.r[idx], // R0 -> R7  and R15
        };
    }
    pub fn changeMode(self: *Self, next: Mode) void {
        const now = getModeChecked(self, self.cpsr.mode.read());
        // Bank R8 -> r12
        var i: usize = 0;
        while (i < 5) : (i += 1) {
            self.bank.fiq[Bank.fiqIdx(i, now)] = self.r[8 + i];
        }
        // Bank r13, r14, SPSR
        switch (now) {
            .User, .System => {
                self.bank.r[Bank.regIdx(now, .R13)] = self.r[13];
                self.bank.r[Bank.regIdx(now, .R14)] = self.r[14];
            },
            else => {
                self.bank.r[Bank.regIdx(now, .R13)] = self.r[13];
                self.bank.r[Bank.regIdx(now, .R14)] = self.r[14];
                self.bank.spsr[Bank.spsrIdx(now)] = self.spsr;
            },
        }
        // Grab R8 -> R12
        i = 0;
        while (i < 5) : (i += 1) {
            self.r[8 + i] = self.bank.fiq[Bank.fiqIdx(i, next)];
        }
        // Grab r13, r14, SPSR
        switch (next) {
            .User, .System => {
                self.r[13] = self.bank.r[Bank.regIdx(next, .R13)];
                self.r[14] = self.bank.r[Bank.regIdx(next, .R14)];
            },
            else => {
                self.r[13] = self.bank.r[Bank.regIdx(next, .R13)];
                self.r[14] = self.bank.r[Bank.regIdx(next, .R14)];
                self.spsr = self.bank.spsr[Bank.spsrIdx(next)];
            },
        }
        self.cpsr.mode.write(@enumToInt(next));
    }
    /// Advances state so that the BIOS is skipped
    ///
    /// Note: This accesses the CPU's bus ptr so it only may be called
    /// once the Bus has been properly initialized
    ///
    /// TODO: Make above notice impossible to do in code
    pub fn fastBoot(self: *Self) void {
        self.r = std.mem.zeroes([16]u32);
        // self.r[0] = 0x08000000;
        // self.r[1] = 0x000000EA;
        self.r[13] = 0x0300_7F00;
        self.r[15] = 0x0800_0000;
        self.bank.r[Bank.regIdx(.Irq, .R13)] = 0x0300_7FA0;
        self.bank.r[Bank.regIdx(.Supervisor, .R13)] = 0x0300_7FE0;
        // self.cpsr.raw = 0x6000001F;
        self.cpsr.raw = 0x0000_001F;
        self.bus.bios.addr_latch = 0x0000_00DC + 8;
    }
    pub fn step(self: *Self) void {
        defer {
            if (!self.pipe.flushed) self.r[15] += if (self.cpsr.t.read()) 2 else @as(u32, 4);
            self.pipe.flushed = false;
        }
        if (self.cpsr.t.read()) {
            const opcode = @truncate(u16, self.pipe.step(self, u16) orelse return);
            if (self.logger) |*trace| trace.mgbaLog(self, opcode);
            thumb.lut[thumb.idx(opcode)](self, self.bus, opcode);
        } else {
            const opcode = self.pipe.step(self, u32) orelse return;
            if (self.logger) |*trace| trace.mgbaLog(self, opcode);
            if (checkCond(self.cpsr, @truncate(u4, opcode >> 28))) {
                arm.lut[arm.idx(opcode)](self, self.bus, opcode);
            }
        }
    }
    pub fn stepDmaTransfer(self: *Self) bool {
        comptime var i: usize = 0;
        inline while (i < 4) : (i += 1) {
            if (self.bus.dma[i].in_progress) {
                self.bus.dma[i].step(self);
                return true;
            }
        }
        return false;
    }
    pub fn handleInterrupt(self: *Self) void {
        const should_handle = self.bus.io.ie.raw & self.bus.io.irq.raw;
        // Return if IME is disabled, CPSR I is set or there is nothing to handle
        if (!self.bus.io.ime or self.cpsr.i.read() or should_handle == 0) return;
        // If Pipeline isn't full, we have a bug
        std.debug.assert(self.pipe.isFull());
        // log.debug("Handling Interrupt!", .{});
        self.bus.io.haltcnt = .Execute;
        // FIXME: This seems weird, but retAddr.gba suggests I need to make these changes
        const ret_addr = self.r[15] - if (self.cpsr.t.read()) 0 else @as(u32, 4);
        const new_spsr = self.cpsr.raw;
        self.changeMode(.Irq);
        self.cpsr.t.write(false);
        self.cpsr.i.write(true);
        self.r[14] = ret_addr;
        self.spsr.raw = new_spsr;
        self.r[15] = 0x0000_0018;
        self.pipe.reload(self);
    }
    inline fn fetch(self: *Self, comptime T: type, address: u32) T {
        comptime std.debug.assert(T == u32 or T == u16); // Opcode may be 32-bit (ARM) or 16-bit (THUMB)
        // Bus.read will advance the scheduler. There are different timings for CPU fetches,
        // so we want to undo what Bus.read will apply. We can do this by caching the current tick
        // This is very dumb.
        //
        // FIXME: Please rework this
        const tick_cache = self.sched.tick;
        defer self.sched.tick = tick_cache + Bus.fetch_timings[@boolToInt(T == u32)][@truncate(u4, address >> 24)];
        return self.bus.read(T, address);
    }
    pub fn panic(self: *const Self, comptime format: []const u8, args: anytype) noreturn {
        var i: usize = 0;
        while (i < 16) : (i += 4) {
            const i_1 = i + 1;
            const i_2 = i + 2;
            const i_3 = i + 3;
            std.debug.print("R{}: 0x{X:0>8}\tR{}: 0x{X:0>8}\tR{}: 0x{X:0>8}\tR{}: 0x{X:0>8}\n", .{ i, self.r[i], i_1, self.r[i_1], i_2, self.r[i_2], i_3, self.r[i_3] });
        }
        std.debug.print("cpsr: 0x{X:0>8} ", .{self.cpsr.raw});
        self.cpsr.toString();
        std.debug.print("spsr: 0x{X:0>8} ", .{self.spsr.raw});
        self.spsr.toString();
        std.debug.print("pipeline: {??X:0>8}\n", .{self.pipe.stage});
        if (self.cpsr.t.read()) {
            const opcode = self.bus.dbgRead(u16, self.r[15] - 4);
            const id = thumb.idx(opcode);
            std.debug.print("opcode: ID: 0x{b:0>10} 0x{X:0>4}\n", .{ id, opcode });
        } else {
            const opcode = self.bus.dbgRead(u32, self.r[15] - 4);
            const id = arm.idx(opcode);
            std.debug.print("opcode: ID: 0x{X:0>3} 0x{X:0>8}\n", .{ id, opcode });
        }
        std.debug.print("tick: {}\n\n", .{self.sched.tick});
        std.debug.panic(format, args);
    }
 };
 const condition_lut = [_]u16{
    0xF0F0, // EQ - Equal
    0x0F0F, // NE - Not Equal
    0xCCCC, // CS - Unsigned higher or same
    0x3333, // CC - Unsigned lower
    0xFF00, // MI - Negative
    0x00FF, // PL - Positive or Zero
    0xAAAA, // VS - Overflow
    0x5555, // VC - No Overflow
    0x0C0C, // HI - unsigned hierh
    0xF3F3, // LS - unsigned lower or same
    0xAA55, // GE - greater or equal
    0x55AA, // LT - less than
    0x0A05, // GT - greater than
    0xF5FA, // LE - less than or equal
    0xFFFF, // AL - always
    0x0000, // NV - never
 };
 pub inline fn checkCond(cpsr: PSR, cond: u4) bool {
    const flags = @truncate(u4, cpsr.raw >> 28);
    return condition_lut[cond] & (@as(u16, 1) << flags) != 0;
 }
 const Pipeline = struct {
    const Self = @This();
    stage: [2]?u32,
    flushed: bool,
    fn init() Self {
        return .{
            .stage = [_]?u32{null} ** 2,
            .flushed = false,
        };
    }
    pub fn isFull(self: *const Self) bool {
        return self.stage[0] != null and self.stage[1] != null;
    }
    pub fn step(self: *Self, cpu: *Arm7tdmi, comptime T: type) ?u32 {
        comptime std.debug.assert(T == u32 or T == u16);
        const opcode = self.stage[0];
        self.stage[0] = self.stage[1];
        self.stage[1] = cpu.fetch(T, cpu.r[15]);
        return opcode;
    }
    pub fn reload(self: *Self, cpu: *Arm7tdmi) void {
        if (cpu.cpsr.t.read()) {
            self.stage[0] = cpu.fetch(u16, cpu.r[15]);
            self.stage[1] = cpu.fetch(u16, cpu.r[15] + 2);
            cpu.r[15] += 4;
        } else {
            self.stage[0] = cpu.fetch(u32, cpu.r[15]);
            self.stage[1] = cpu.fetch(u32, cpu.r[15] + 4);
            cpu.r[15] += 8;
        }
        self.flushed = true;
    }
 };
 pub const PSR = extern union {
    mode: Bitfield(u32, 0, 5),
    t: Bit(u32, 5),
    f: Bit(u32, 6),
    i: Bit(u32, 7),
    v: Bit(u32, 28),
    c: Bit(u32, 29),
    z: Bit(u32, 30),
    n: Bit(u32, 31),
    raw: u32,
    fn toString(self: PSR) void {
        std.debug.print("[", .{});
        if (self.n.read()) std.debug.print("N", .{}) else std.debug.print("-", .{});
        if (self.z.read()) std.debug.print("Z", .{}) else std.debug.print("-", .{});
        if (self.c.read()) std.debug.print("C", .{}) else std.debug.print("-", .{});
        if (self.v.read()) std.debug.print("V", .{}) else std.debug.print("-", .{});
        if (self.i.read()) std.debug.print("I", .{}) else std.debug.print("-", .{});
        if (self.f.read()) std.debug.print("F", .{}) else std.debug.print("-", .{});
        if (self.t.read()) std.debug.print("T", .{}) else std.debug.print("-", .{});
        std.debug.print("|", .{});
        if (getMode(self.mode.read())) |m| std.debug.print("{s}", .{m.toString()}) else std.debug.print("---", .{});
        std.debug.print("]\n", .{});
    }
 };
 const Mode = enum(u5) {
    User = 0b10000,
    Fiq = 0b10001,
    Irq = 0b10010,
    Supervisor = 0b10011,
    Abort = 0b10111,
    Undefined = 0b11011,
    System = 0b11111,
    fn toString(self: Mode) []const u8 {
        return switch (self) {
            .User => "usr",
            .Fiq => "fiq",
            .Irq => "irq",
            .Supervisor => "svc",
            .Abort => "abt",
            .Undefined => "und",
            .System => "sys",
        };
    }
 };
 fn getMode(bits: u5) ?Mode {
    return std.meta.intToEnum(Mode, bits) catch null;
 }
 fn getModeChecked(cpu: *const Arm7tdmi, bits: u5) Mode {
    return getMode(bits) orelse cpu.panic("[CPU/CPSR] 0b{b:0>5} is an invalid CPU mode", .{bits});
 }
--- a/src/core/cpu/arm/block_data_transfer.zig
+++ b/src/core/cpu/arm/block_data_transfer.zig
@@ -1,111 +0,0 @@
 const Bus = @import("../../Bus.zig");
 const Arm7tdmi = @import("../../cpu.zig").Arm7tdmi;
 const InstrFn = @import("../../cpu.zig").arm.InstrFn;
 pub fn blockDataTransfer(comptime P: bool, comptime U: bool, comptime S: bool, comptime W: bool, comptime L: bool) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, bus: *Bus, opcode: u32) void {
            const rn = @truncate(u4, opcode >> 16 & 0xF);
            const rlist = opcode & 0xFFFF;
            const r15 = rlist >> 15 & 1 == 1;
            var count: u32 = 0;
            var i: u5 = 0;
            var first: u4 = 0;
            var write_to_base = true;
            while (i < 16) : (i += 1) {
                const r = @truncate(u4, 15 - i);
                if (rlist >> r & 1 == 1) {
                    first = r;
                    count += 1;
                }
            }
            var start = cpu.r[rn];
            if (U) {
                start += if (P) 4 else 0;
            } else {
                start = start - (4 * count) + if (!P) 4 else 0;
            }
            var end = cpu.r[rn];
            if (U) {
                end = end + (4 * count) - if (!P) 4 else 0;
            } else {
                end -= if (P) 4 else 0;
            }
            var new_base = cpu.r[rn];
            if (U) {
                new_base += 4 * count;
            } else {
                new_base -= 4 * count;
            }
            var address = start;
            if (rlist == 0) {
                var und_addr = cpu.r[rn];
                if (U) {
                    und_addr += if (P) 4 else 0;
                } else {
                    und_addr -= 0x40 - if (!P) 4 else 0;
                }
                if (L) {
                    cpu.r[15] = bus.read(u32, und_addr);
                    cpu.pipe.reload(cpu);
                } else {
                    bus.write(u32, und_addr, cpu.r[15] + 4);
                }
                cpu.r[rn] = if (U) cpu.r[rn] + 0x40 else cpu.r[rn] - 0x40;
                return;
            }
            i = first;
            while (i < 16) : (i += 1) {
                if (rlist >> i & 1 == 1) {
                    transfer(cpu, bus, r15, i, address);
                    address += 4;
                    if (W and !L and write_to_base) {
                        cpu.r[rn] = new_base;
                        write_to_base = false;
                    }
                }
            }
            if (W and L and rlist >> rn & 1 == 0) cpu.r[rn] = new_base;
        }
        fn transfer(cpu: *Arm7tdmi, bus: *Bus, r15_present: bool, i: u5, address: u32) void {
            if (L) {
                if (S and !r15_present) {
                    // Always Transfer User mode Registers
                    cpu.setUserModeRegister(i, bus.read(u32, address));
                } else {
                    const value = bus.read(u32, address);
                    cpu.r[i] = value;
                    if (i == 0xF) {
                        cpu.r[i] &= ~@as(u32, 3); // Align r15
                        cpu.pipe.reload(cpu);
                        if (S) cpu.setCpsr(cpu.spsr.raw);
                    }
                }
            } else {
                if (S) {
                    // Always Transfer User mode Registers
                    // This happens regardless if r15 is in the list
                    const value = cpu.getUserModeRegister(i);
                    bus.write(u32, address, value + if (i == 0xF) 4 else @as(u32, 0)); // PC is already 8 ahead to make 12
                } else {
                    bus.write(u32, address, cpu.r[i] + if (i == 0xF) 4 else @as(u32, 0));
                }
            }
        }
    }.inner;
 }
--- a/src/core/cpu/arm/branch.zig
+++ b/src/core/cpu/arm/branch.zig
@@ -1,26 +0,0 @@
 const Bus = @import("../../Bus.zig");
 const Arm7tdmi = @import("../../cpu.zig").Arm7tdmi;
 const InstrFn = @import("../../cpu.zig").arm.InstrFn;
 const sext = @import("../../../util.zig").sext;
 pub fn branch(comptime L: bool) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u32) void {
            if (L) cpu.r[14] = cpu.r[15] - 4;
            cpu.r[15] +%= sext(u32, u24, opcode) << 2;
            cpu.pipe.reload(cpu);
        }
    }.inner;
 }
 pub fn branchAndExchange(cpu: *Arm7tdmi, _: *Bus, opcode: u32) void {
    const rn = opcode & 0xF;
    const thumb = cpu.r[rn] & 1 == 1;
    cpu.r[15] = cpu.r[rn] & if (thumb) ~@as(u32, 1) else ~@as(u32, 3);
    cpu.cpsr.t.write(thumb);
    cpu.pipe.reload(cpu);
 }
--- a/src/core/cpu/arm/data_processing.zig
+++ b/src/core/cpu/arm/data_processing.zig
@@ -1,183 +0,0 @@
 const Bus = @import("../../Bus.zig");
 const Arm7tdmi = @import("../../cpu.zig").Arm7tdmi;
 const InstrFn = @import("../../cpu.zig").arm.InstrFn;
 const exec = @import("../barrel_shifter.zig").exec;
 const ror = @import("../barrel_shifter.zig").ror;
 pub fn dataProcessing(comptime I: bool, comptime S: bool, comptime kind: u4) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u32) void {
            const rd = @truncate(u4, opcode >> 12 & 0xF);
            const rn = opcode >> 16 & 0xF;
            const old_carry = @boolToInt(cpu.cpsr.c.read());
            // If certain conditions are met, PC is 12 ahead instead of 8
            // TODO: Why these conditions?
            if (!I and opcode >> 4 & 1 == 1) cpu.r[15] += 4;
            const op1 = cpu.r[rn];
            const amount = @truncate(u8, (opcode >> 8 & 0xF) << 1);
            const op2 = if (I) ror(S, &cpu.cpsr, opcode & 0xFF, amount) else exec(S, cpu, opcode);
            // Undo special condition from above
            if (!I and opcode >> 4 & 1 == 1) cpu.r[15] -= 4;
            var result: u32 = undefined;
            var overflow: bool = undefined;
            // Perform Data Processing Logic
            switch (kind) {
                0x0 => result = op1 & op2, // AND
                0x1 => result = op1 ^ op2, // EOR
                0x2 => result = op1 -% op2, // SUB
                0x3 => result = op2 -% op1, // RSB
                0x4 => result = add(&overflow, op1, op2), // ADD
                0x5 => result = adc(&overflow, op1, op2, old_carry), // ADC
                0x6 => result = sbc(op1, op2, old_carry), // SBC
                0x7 => result = sbc(op2, op1, old_carry), // RSC
                0x8 => {
                    // TST
                    if (rd == 0xF)
                        return undefinedTestBehaviour(cpu);
                    result = op1 & op2;
                },
                0x9 => {
                    // TEQ
                    if (rd == 0xF)
                        return undefinedTestBehaviour(cpu);
                    result = op1 ^ op2;
                },
                0xA => {
                    // CMP
                    if (rd == 0xF)
                        return undefinedTestBehaviour(cpu);
                    result = op1 -% op2;
                },
                0xB => {
                    // CMN
                    if (rd == 0xF)
                        return undefinedTestBehaviour(cpu);
                    overflow = @addWithOverflow(u32, op1, op2, &result);
                },
                0xC => result = op1 | op2, // ORR
                0xD => result = op2, // MOV
                0xE => result = op1 & ~op2, // BIC
                0xF => result = ~op2, // MVN
            }
            // Write to Destination Register
            switch (kind) {
                0x8, 0x9, 0xA, 0xB => {}, // Test Operations
                else => {
                    cpu.r[rd] = result;
                    if (rd == 0xF) {
                        if (S) cpu.setCpsr(cpu.spsr.raw);
                        cpu.pipe.reload(cpu);
                    }
                },
            }
            // Write Flags
            switch (kind) {
                0x0, 0x1, 0xC, 0xD, 0xE, 0xF => if (S and rd != 0xF) {
                    // Logic Operation Flags
                    cpu.cpsr.n.write(result >> 31 & 1 == 1);
                    cpu.cpsr.z.write(result == 0);
                    // C set by Barrel Shifter, V is unaffected
                },
                0x2, 0x3 => if (S and rd != 0xF) {
                    // SUB, RSB Flags
                    cpu.cpsr.n.write(result >> 31 & 1 == 1);
                    cpu.cpsr.z.write(result == 0);
                    if (kind == 0x2) {
                        // SUB specific
                        cpu.cpsr.c.write(op2 <= op1);
                        cpu.cpsr.v.write(((op1 ^ result) & (~op2 ^ result)) >> 31 & 1 == 1);
                    } else {
                        // RSB Specific
                        cpu.cpsr.c.write(op1 <= op2);
                        cpu.cpsr.v.write(((op2 ^ result) & (~op1 ^ result)) >> 31 & 1 == 1);
                    }
                },
                0x4, 0x5 => if (S and rd != 0xF) {
                    // ADD, ADC Flags
                    cpu.cpsr.n.write(result >> 31 & 1 == 1);
                    cpu.cpsr.z.write(result == 0);
                    cpu.cpsr.c.write(overflow);
                    cpu.cpsr.v.write(((op1 ^ result) & (op2 ^ result)) >> 31 & 1 == 1);
                },
                0x6, 0x7 => if (S and rd != 0xF) {
                    // SBC, RSC Flags
                    cpu.cpsr.n.write(result >> 31 & 1 == 1);
                    cpu.cpsr.z.write(result == 0);
                    if (kind == 0x6) {
                        // SBC specific
                        const subtrahend = @as(u64, op2) -% old_carry +% 1;
                        cpu.cpsr.c.write(subtrahend <= op1);
                        cpu.cpsr.v.write(((op1 ^ result) & (~op2 ^ result)) >> 31 & 1 == 1);
                    } else {
                        // RSC Specific
                        const subtrahend = @as(u64, op1) -% old_carry +% 1;
                        cpu.cpsr.c.write(subtrahend <= op2);
                        cpu.cpsr.v.write(((op2 ^ result) & (~op1 ^ result)) >> 31 & 1 == 1);
                    }
                },
                0x8, 0x9, 0xA, 0xB => {
                    // Test Operation Flags
                    cpu.cpsr.n.write(result >> 31 & 1 == 1);
                    cpu.cpsr.z.write(result == 0);
                    if (kind == 0xA) {
                        // CMP specific
                        cpu.cpsr.c.write(op2 <= op1);
                        cpu.cpsr.v.write(((op1 ^ result) & (~op2 ^ result)) >> 31 & 1 == 1);
                    } else if (kind == 0xB) {
                        // CMN specific
                        cpu.cpsr.c.write(overflow);
                        cpu.cpsr.v.write(((op1 ^ result) & (op2 ^ result)) >> 31 & 1 == 1);
                    } else {
                        // TST, TEQ specific
                        // Barrel Shifter should always calc CPSR C in TST
                        if (!S) _ = exec(true, cpu, opcode);
                    }
                },
            }
        }
    }.inner;
 }
 pub fn sbc(left: u32, right: u32, old_carry: u1) u32 {
    // TODO: Make your own version (thanks peach.bot)
    const subtrahend = @as(u64, right) -% old_carry +% 1;
    const ret = @truncate(u32, left -% subtrahend);
    return ret;
 }
 pub fn add(overflow: *bool, left: u32, right: u32) u32 {
    var ret: u32 = undefined;
    overflow.* = @addWithOverflow(u32, left, right, &ret);
    return ret;
 }
 pub fn adc(overflow: *bool, left: u32, right: u32, old_carry: u1) u32 {
    var ret: u32 = undefined;
    const first = @addWithOverflow(u32, left, right, &ret);
    const second = @addWithOverflow(u32, ret, old_carry, &ret);
    overflow.* = first or second;
    return ret;
 }
 fn undefinedTestBehaviour(cpu: *Arm7tdmi) void {
    @setCold(true);
    cpu.setCpsr(cpu.spsr.raw);
 }
--- a/src/core/cpu/arm/half_signed_data_transfer.zig
+++ b/src/core/cpu/arm/half_signed_data_transfer.zig
@@ -1,53 +0,0 @@
 const Bus = @import("../../Bus.zig");
 const Arm7tdmi = @import("../../cpu.zig").Arm7tdmi;
 const InstrFn = @import("../../cpu.zig").arm.InstrFn;
 const sext = @import("../../../util.zig").sext;
 const rotr = @import("../../../util.zig").rotr;
 pub fn halfAndSignedDataTransfer(comptime P: bool, comptime U: bool, comptime I: bool, comptime W: bool, comptime L: bool) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, bus: *Bus, opcode: u32) void {
            const rn = opcode >> 16 & 0xF;
            const rd = opcode >> 12 & 0xF;
            const rm = opcode & 0xF;
            const imm_offset_high = opcode >> 8 & 0xF;
            const base = cpu.r[rn] + if (!L and rn == 0xF) 4 else @as(u32, 0);
            const offset = if (I) imm_offset_high << 4 | rm else cpu.r[rm];
            const modified_base = if (U) base +% offset else base -% offset;
            var address = if (P) modified_base else base;
            var result: u32 = undefined;
            if (L) {
                switch (@truncate(u2, opcode >> 5)) {
                    0b01 => {
                        // LDRH
                        const value = bus.read(u16, address);
                        result = rotr(u32, value, 8 * (address & 1));
                    },
                    0b10 => {
                        // LDRSB
                        result = sext(u32, u8, bus.read(u8, address));
                    },
                    0b11 => {
                        // LDRSH
                        const value = bus.read(u16, address);
                        result = if (address & 1 == 1) sext(u32, u8, @truncate(u8, value >> 8)) else sext(u32, u16, value);
                    },
                    0b00 => unreachable, // SWP
                }
            } else {
                if (opcode >> 5 & 0x01 == 0x01) {
                    // STRH
                    bus.write(u16, address, @truncate(u16, cpu.r[rd]));
                } else unreachable; // SWP
            }
            address = modified_base;
            if (W and P or !P) cpu.r[rn] = address;
            if (L) cpu.r[rd] = result; // // This emulates the LDR rd == rn behaviour
        }
    }.inner;
 }
--- a/src/core/cpu/arm/multiply.zig
+++ b/src/core/cpu/arm/multiply.zig
@@ -1,57 +0,0 @@
 const Bus = @import("../../Bus.zig");
 const Arm7tdmi = @import("../../cpu.zig").Arm7tdmi;
 const InstrFn = @import("../../cpu.zig").arm.InstrFn;
 pub fn multiply(comptime A: bool, comptime S: bool) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u32) void {
            const rd = opcode >> 16 & 0xF;
            const rn = opcode >> 12 & 0xF;
            const rs = opcode >> 8 & 0xF;
            const rm = opcode & 0xF;
            const temp: u64 = @as(u64, cpu.r[rm]) * @as(u64, cpu.r[rs]) + if (A) cpu.r[rn] else 0;
            const result = @truncate(u32, temp);
            cpu.r[rd] = result;
            if (S) {
                cpu.cpsr.n.write(result >> 31 & 1 == 1);
                cpu.cpsr.z.write(result == 0);
                // V is unaffected, C is *actually* undefined in ARMv4
            }
        }
    }.inner;
 }
 pub fn multiplyLong(comptime U: bool, comptime A: bool, comptime S: bool) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u32) void {
            const rd_hi = opcode >> 16 & 0xF;
            const rd_lo = opcode >> 12 & 0xF;
            const rs = opcode >> 8 & 0xF;
            const rm = opcode & 0xF;
            if (U) {
                // Signed (WHY IS IT U THEN?)
                var result: i64 = @as(i64, @bitCast(i32, cpu.r[rm])) * @as(i64, @bitCast(i32, cpu.r[rs]));
                if (A) result +%= @bitCast(i64, @as(u64, cpu.r[rd_hi]) << 32 | @as(u64, cpu.r[rd_lo]));
                cpu.r[rd_hi] = @bitCast(u32, @truncate(i32, result >> 32));
                cpu.r[rd_lo] = @bitCast(u32, @truncate(i32, result));
            } else {
                // Unsigned
                var result: u64 = @as(u64, cpu.r[rm]) * @as(u64, cpu.r[rs]);
                if (A) result +%= @as(u64, cpu.r[rd_hi]) << 32 | @as(u64, cpu.r[rd_lo]);
                cpu.r[rd_hi] = @truncate(u32, result >> 32);
                cpu.r[rd_lo] = @truncate(u32, result);
            }
            if (S) {
                cpu.cpsr.z.write(cpu.r[rd_hi] == 0 and cpu.r[rd_lo] == 0);
                cpu.cpsr.n.write(cpu.r[rd_hi] >> 31 & 1 == 1);
                // C and V are set to meaningless values
            }
        }
    }.inner;
 }
--- a/src/core/cpu/arm/psr_transfer.zig
+++ b/src/core/cpu/arm/psr_transfer.zig
@@ -1,59 +0,0 @@
 const std = @import("std");
 const Bus = @import("../../Bus.zig");
 const Arm7tdmi = @import("../../cpu.zig").Arm7tdmi;
 const InstrFn = @import("../../cpu.zig").arm.InstrFn;
 const PSR = @import("../../cpu.zig").PSR;
 const log = std.log.scoped(.PsrTransfer);
 const rotr = @import("../../../util.zig").rotr;
 pub fn psrTransfer(comptime I: bool, comptime R: bool, comptime kind: u2) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u32) void {
            switch (kind) {
                0b00 => {
                    // MRS
                    const rd = opcode >> 12 & 0xF;
                    if (R and !cpu.hasSPSR()) log.err("Tried to read SPSR from User/System Mode", .{});
                    cpu.r[rd] = if (R) cpu.spsr.raw else cpu.cpsr.raw;
                },
                0b10 => {
                    // MSR
                    const field_mask = @truncate(u4, opcode >> 16 & 0xF);
                    const rm_idx = opcode & 0xF;
                    const right = if (I) rotr(u32, opcode & 0xFF, (opcode >> 8 & 0xF) * 2) else cpu.r[rm_idx];
                    if (R and !cpu.hasSPSR()) log.err("Tried to write to SPSR in User/System Mode", .{});
                    if (R) {
                        // arm.gba seems to expect the SPSR to do somethign in SYS mode,
                        // so we just assume that despite writing to the SPSR in USR or SYS mode
                        // being UNPREDICTABLE, it just magically has a working SPSR somehow
                        cpu.spsr.raw = fieldMask(&cpu.spsr, field_mask, right);
                    } else {
                        if (cpu.isPrivileged()) cpu.setCpsr(fieldMask(&cpu.cpsr, field_mask, right));
                    }
                },
                else => cpu.panic("[CPU/PSR Transfer] Bits 21:220 of {X:0>8} are undefined", .{opcode}),
            }
        }
    }.inner;
 }
 fn fieldMask(psr: *const PSR, field_mask: u4, right: u32) u32 {
    // This bitwise ORs bits 3 and 0 of the field mask into a u2
    // We do this because we only care about bits 7:0 and 31:28 of the CPSR
    const bits = @truncate(u2, (field_mask >> 2 & 0x2) | (field_mask & 1));
    const mask: u32 = switch (bits) {
        0b00 => 0x0000_0000,
        0b01 => 0x0000_00FF,
        0b10 => 0xF000_0000,
        0b11 => 0xF000_00FF,
    };
    return (psr.raw & ~mask) | (right & mask);
 }
--- a/src/core/cpu/arm/single_data_swap.zig
+++ b/src/core/cpu/arm/single_data_swap.zig
@@ -1,29 +0,0 @@
 const Bus = @import("../../Bus.zig");
 const Arm7tdmi = @import("../../cpu.zig").Arm7tdmi;
 const InstrFn = @import("../../cpu.zig").arm.InstrFn;
 const rotr = @import("../../../util.zig").rotr;
 pub fn singleDataSwap(comptime B: bool) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, bus: *Bus, opcode: u32) void {
            const rn = opcode >> 16 & 0xF;
            const rd = opcode >> 12 & 0xF;
            const rm = opcode & 0xF;
            const address = cpu.r[rn];
            if (B) {
                // SWPB
                const value = bus.read(u8, address);
                bus.write(u8, address, @truncate(u8, cpu.r[rm]));
                cpu.r[rd] = value;
            } else {
                // SWP
                const value = rotr(u32, bus.read(u32, address), 8 * (address & 0x3));
                bus.write(u32, address, cpu.r[rm]);
                cpu.r[rd] = value;
            }
        }
    }.inner;
 }
--- a/src/core/cpu/arm/single_data_transfer.zig
+++ b/src/core/cpu/arm/single_data_transfer.zig
@@ -1,57 +0,0 @@
 const shifter = @import("../barrel_shifter.zig");
 const Bus = @import("../../Bus.zig");
 const Arm7tdmi = @import("../../cpu.zig").Arm7tdmi;
 const InstrFn = @import("../../cpu.zig").arm.InstrFn;
 const rotr = @import("../../../util.zig").rotr;
 pub fn singleDataTransfer(comptime I: bool, comptime P: bool, comptime U: bool, comptime B: bool, comptime W: bool, comptime L: bool) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, bus: *Bus, opcode: u32) void {
            const rn = opcode >> 16 & 0xF;
            const rd = opcode >> 12 & 0xF;
            // rn is r15 and L is not set, the PC is 12 ahead
            const base = cpu.r[rn] + if (!L and rn == 0xF) 4 else @as(u32, 0);
            const offset = if (I) shifter.immediate(false, cpu, opcode) else opcode & 0xFFF;
            const modified_base = if (U) base +% offset else base -% offset;
            var address = if (P) modified_base else base;
            var result: u32 = undefined;
            if (L) {
                if (B) {
                    // LDRB
                    result = bus.read(u8, address);
                } else {
                    // LDR
                    const value = bus.read(u32, address);
                    result = rotr(u32, value, 8 * (address & 0x3));
                }
            } else {
                if (B) {
                    // STRB
                    const value = cpu.r[rd] + if (rd == 0xF) 4 else @as(u32, 0); // PC is 12 ahead
                    bus.write(u8, address, @truncate(u8, value));
                } else {
                    // STR
                    const value = cpu.r[rd] + if (rd == 0xF) 4 else @as(u32, 0);
                    bus.write(u32, address, value);
                }
            }
            address = modified_base;
            if (W and P or !P) {
                cpu.r[rn] = address;
                if (rn == 0xF) cpu.pipe.reload(cpu);
            }
            if (L) {
                // This emulates the LDR rd == rn behaviour
                cpu.r[rd] = result;
                if (rd == 0xF) cpu.pipe.reload(cpu);
            }
        }
    }.inner;
 }
--- a/src/core/cpu/arm/software_interrupt.zig
+++ b/src/core/cpu/arm/software_interrupt.zig
@@ -1,23 +0,0 @@
 const Bus = @import("../../Bus.zig");
 const Arm7tdmi = @import("../../cpu.zig").Arm7tdmi;
 const InstrFn = @import("../../cpu.zig").arm.InstrFn;
 pub fn armSoftwareInterrupt() InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, _: *Bus, _: u32) void {
            // Copy Values from Current Mode
            const ret_addr = cpu.r[15] - 4;
            const cpsr = cpu.cpsr.raw;
            // Switch Mode
            cpu.changeMode(.Supervisor);
            cpu.cpsr.t.write(false); // Force ARM Mode
            cpu.cpsr.i.write(true); // Disable normal interrupts
            cpu.r[14] = ret_addr; // Resume Execution
            cpu.spsr.raw = cpsr; // Previous mode CPSR
            cpu.r[15] = 0x0000_0008;
            cpu.pipe.reload(cpu);
        }
    }.inner;
 }
--- a/src/core/cpu/barrel_shifter.zig
+++ b/src/core/cpu/barrel_shifter.zig
@@ -1,147 +0,0 @@
 const Arm7tdmi = @import("../cpu.zig").Arm7tdmi;
 const CPSR = @import("../cpu.zig").PSR;
 const rotr = @import("../../util.zig").rotr;
 pub fn exec(comptime S: bool, cpu: *Arm7tdmi, opcode: u32) u32 {
    var result: u32 = undefined;
    if (opcode >> 4 & 1 == 1) {
        result = register(S, cpu, opcode);
    } else {
        result = immediate(S, cpu, opcode);
    }
    return result;
 }
 fn register(comptime S: bool, cpu: *Arm7tdmi, opcode: u32) u32 {
    const rs_idx = opcode >> 8 & 0xF;
    const rm = cpu.r[opcode & 0xF];
    const rs = @truncate(u8, cpu.r[rs_idx]);
    return switch (@truncate(u2, opcode >> 5)) {
        0b00 => lsl(S, &cpu.cpsr, rm, rs),
        0b01 => lsr(S, &cpu.cpsr, rm, rs),
        0b10 => asr(S, &cpu.cpsr, rm, rs),
        0b11 => ror(S, &cpu.cpsr, rm, rs),
    };
 }
 pub fn immediate(comptime S: bool, cpu: *Arm7tdmi, opcode: u32) u32 {
    const amount = @truncate(u8, opcode >> 7 & 0x1F);
    const rm = cpu.r[opcode & 0xF];
    var result: u32 = undefined;
    if (amount == 0) {
        switch (@truncate(u2, opcode >> 5)) {
            0b00 => {
                // LSL #0
                result = rm;
            },
            0b01 => {
                // LSR #0 aka LSR #32
                if (S) cpu.cpsr.c.write(rm >> 31 & 1 == 1);
                result = 0x0000_0000;
            },
            0b10 => {
                // ASR #0 aka ASR #32
                result = @bitCast(u32, @bitCast(i32, rm) >> 31);
                if (S) cpu.cpsr.c.write(result >> 31 & 1 == 1);
            },
            0b11 => {
                // ROR #0 aka RRX
                const carry: u32 = @boolToInt(cpu.cpsr.c.read());
                if (S) cpu.cpsr.c.write(rm & 1 == 1);
                result = (carry << 31) | (rm >> 1);
            },
        }
    } else {
        switch (@truncate(u2, opcode >> 5)) {
            0b00 => result = lsl(S, &cpu.cpsr, rm, amount),
            0b01 => result = lsr(S, &cpu.cpsr, rm, amount),
            0b10 => result = asr(S, &cpu.cpsr, rm, amount),
            0b11 => result = ror(S, &cpu.cpsr, rm, amount),
        }
    }
    return result;
 }
 pub fn lsl(comptime S: bool, cpsr: *CPSR, rm: u32, total_amount: u8) u32 {
    const amount = @truncate(u5, total_amount);
    const bit_count: u8 = @typeInfo(u32).Int.bits;
    var result: u32 = 0x0000_0000;
    if (total_amount < bit_count) {
        // We can perform a well-defined shift here
        result = rm << amount;
        if (S and total_amount != 0) {
            const carry_bit = @truncate(u5, bit_count - amount);
            cpsr.c.write(rm >> carry_bit & 1 == 1);
        }
    } else {
        if (S) {
            if (total_amount == bit_count) {
                // Shifted all bits out, carry bit is bit 0 of rm
                cpsr.c.write(rm & 1 == 1);
            } else {
                cpsr.c.write(false);
            }
        }
    }
    return result;
 }
 pub fn lsr(comptime S: bool, cpsr: *CPSR, rm: u32, total_amount: u32) u32 {
    const amount = @truncate(u5, total_amount);
    const bit_count: u8 = @typeInfo(u32).Int.bits;
    var result: u32 = 0x0000_0000;
    if (total_amount < bit_count) {
        // We can perform a well-defined shift
        result = rm >> amount;
        if (S and total_amount != 0) cpsr.c.write(rm >> (amount - 1) & 1 == 1);
    } else {
        if (S) {
            if (total_amount == bit_count) {
                // LSR #32
                cpsr.c.write(rm >> 31 & 1 == 1);
            } else {
                // All bits have been shifted out, including carry bit
                cpsr.c.write(false);
            }
        }
    }
    return result;
 }
 pub fn asr(comptime S: bool, cpsr: *CPSR, rm: u32, total_amount: u8) u32 {
    const amount = @truncate(u5, total_amount);
    const bit_count: u8 = @typeInfo(u32).Int.bits;
    var result: u32 = 0x0000_0000;
    if (total_amount < bit_count) {
        result = @bitCast(u32, @bitCast(i32, rm) >> amount);
        if (S and total_amount != 0) cpsr.c.write(rm >> (amount - 1) & 1 == 1);
    } else {
        // ASR #32 and ASR #>32 have the same result
        result = @bitCast(u32, @bitCast(i32, rm) >> 31);
        if (S) cpsr.c.write(result >> 31 & 1 == 1);
    }
    return result;
 }
 pub fn ror(comptime S: bool, cpsr: *CPSR, rm: u32, total_amount: u8) u32 {
    const result = rotr(u32, rm, total_amount);
    if (S and total_amount != 0) {
        cpsr.c.write(result >> 31 & 1 == 1);
    }
    return result;
 }
--- a/src/core/cpu/thumb/alu.zig
+++ b/src/core/cpu/thumb/alu.zig
@@ -1,102 +0,0 @@
 const Bus = @import("../../Bus.zig");
 const Arm7tdmi = @import("../../cpu.zig").Arm7tdmi;
 const InstrFn = @import("../../cpu.zig").thumb.InstrFn;
 const adc = @import("../arm/data_processing.zig").adc;
 const sbc = @import("../arm/data_processing.zig").sbc;
 const lsl = @import("../barrel_shifter.zig").lsl;
 const lsr = @import("../barrel_shifter.zig").lsr;
 const asr = @import("../barrel_shifter.zig").asr;
 const ror = @import("../barrel_shifter.zig").ror;
 pub fn fmt4(comptime op: u4) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u16) void {
            const rs = opcode >> 3 & 0x7;
            const rd = opcode & 0x7;
            const carry = @boolToInt(cpu.cpsr.c.read());
            const op1 = cpu.r[rd];
            const op2 = cpu.r[rs];
            var result: u32 = undefined;
            var overflow: bool = undefined;
            switch (op) {
                0x0 => result = op1 & op2, // AND
                0x1 => result = op1 ^ op2, // EOR
                0x2 => result = lsl(true, &cpu.cpsr, op1, @truncate(u8, op2)), // LSL
                0x3 => result = lsr(true, &cpu.cpsr, op1, @truncate(u8, op2)), // LSR
                0x4 => result = asr(true, &cpu.cpsr, op1, @truncate(u8, op2)), // ASR
                0x5 => result = adc(&overflow, op1, op2, carry), // ADC
                0x6 => result = sbc(op1, op2, carry), // SBC
                0x7 => result = ror(true, &cpu.cpsr, op1, @truncate(u8, op2)), // ROR
                0x8 => result = op1 & op2, // TST
                0x9 => result = 0 -% op2, // NEG
                0xA => result = op1 -% op2, // CMP
                0xB => overflow = @addWithOverflow(u32, op1, op2, &result), // CMN
                0xC => result = op1 | op2, // ORR
                0xD => result = @truncate(u32, @as(u64, op2) * @as(u64, op1)),
                0xE => result = op1 & ~op2,
                0xF => result = ~op2,
            }
            // Write to Destination Register
            switch (op) {
                0x8, 0xA, 0xB => {},
                else => cpu.r[rd] = result,
            }
            // Write Flags
            switch (op) {
                0x0, 0x1, 0x2, 0x3, 0x4, 0x7, 0xC, 0xE, 0xF => {
                    // Logic Operations
                    cpu.cpsr.n.write(result >> 31 & 1 == 1);
                    cpu.cpsr.z.write(result == 0);
                    // C set by Barrel Shifter, V is unaffected
                },
                0x8, 0xA => {
                    // Test Flags
                    // CMN (0xB) is handled with ADC
                    cpu.cpsr.n.write(result >> 31 & 1 == 1);
                    cpu.cpsr.z.write(result == 0);
                    if (op == 0xA) {
                        // CMP specific
                        cpu.cpsr.c.write(op2 <= op1);
                        cpu.cpsr.v.write(((op1 ^ result) & (~op2 ^ result)) >> 31 & 1 == 1);
                    }
                },
                0x5, 0xB => {
                    // ADC, CMN
                    cpu.cpsr.n.write(result >> 31 & 1 == 1);
                    cpu.cpsr.z.write(result == 0);
                    cpu.cpsr.c.write(overflow);
                    cpu.cpsr.v.write(((op1 ^ result) & (op2 ^ result)) >> 31 & 1 == 1);
                },
                0x6 => {
                    // SBC
                    cpu.cpsr.n.write(result >> 31 & 1 == 1);
                    cpu.cpsr.z.write(result == 0);
                    const subtrahend = @as(u64, op2) -% carry +% 1;
                    cpu.cpsr.c.write(subtrahend <= op1);
                    cpu.cpsr.v.write(((op1 ^ result) & (~op2 ^ result)) >> 31 & 1 == 1);
                },
                0x9 => {
                    // NEG
                    cpu.cpsr.n.write(result >> 31 & 1 == 1);
                    cpu.cpsr.z.write(result == 0);
                    cpu.cpsr.c.write(op2 <= 0);
                    cpu.cpsr.v.write(((0 ^ result) & (~op2 ^ result)) >> 31 & 1 == 1);
                },
                0xD => {
                    // Multiplication
                    cpu.cpsr.n.write(result >> 31 & 1 == 1);
                    cpu.cpsr.z.write(result == 0);
                    // V is unaffected, assuming similar behaviour to ARMv4 MUL C is undefined
                },
            }
        }
    }.inner;
 }
--- a/src/core/cpu/thumb/block_data_transfer.zig
+++ b/src/core/cpu/thumb/block_data_transfer.zig
@@ -1,101 +0,0 @@
 const Bus = @import("../../Bus.zig");
 const Arm7tdmi = @import("../../cpu.zig").Arm7tdmi;
 const InstrFn = @import("../../cpu.zig").thumb.InstrFn;
 pub fn fmt14(comptime L: bool, comptime R: bool) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, bus: *Bus, opcode: u16) void {
            const count = @boolToInt(R) + countRlist(opcode);
            const start = cpu.r[13] - if (!L) count * 4 else 0;
            var end = cpu.r[13];
            if (L) {
                end += count * 4;
            } else {
                end -= 4;
            }
            var address = start;
            var i: u4 = 0;
            while (i < 8) : (i += 1) {
                if (opcode >> i & 1 == 1) {
                    if (L) {
                        cpu.r[i] = bus.read(u32, address);
                    } else {
                        bus.write(u32, address, cpu.r[i]);
                    }
                    address += 4;
                }
            }
            if (R) {
                if (L) {
                    const value = bus.read(u32, address);
                    cpu.r[15] = value & ~@as(u32, 1);
                    cpu.pipe.reload(cpu);
                } else {
                    bus.write(u32, address, cpu.r[14]);
                }
                address += 4;
            }
            cpu.r[13] = if (L) end else start;
        }
    }.inner;
 }
 pub fn fmt15(comptime L: bool, comptime rb: u3) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, bus: *Bus, opcode: u16) void {
            var address = cpu.r[rb];
            const end_address = cpu.r[rb] + 4 * countRlist(opcode);
            if (opcode & 0xFF == 0) {
                if (L) {
                    cpu.r[15] = bus.read(u32, address);
                    cpu.pipe.reload(cpu);
                } else {
                    bus.write(u32, address, cpu.r[15] + 2);
                }
                cpu.r[rb] += 0x40;
                return;
            }
            var i: u4 = 0;
            var first_write = true;
            while (i < 8) : (i += 1) {
                if (opcode >> i & 1 == 1) {
                    if (L) {
                        cpu.r[i] = bus.read(u32, address);
                    } else {
                        bus.write(u32, address, cpu.r[i]);
                    }
                    if (!L and first_write) {
                        cpu.r[rb] = end_address;
                        first_write = false;
                    }
                    address += 4;
                }
            }
            if (L and opcode >> rb & 1 != 1) cpu.r[rb] = address;
        }
    }.inner;
 }
 inline fn countRlist(opcode: u16) u32 {
    var count: u32 = 0;
    comptime var i: u4 = 0;
    inline while (i < 8) : (i += 1) {
        if (opcode >> (7 - i) & 1 == 1) count += 1;
    }
    return count;
 }
--- a/src/core/cpu/thumb/branch.zig
+++ b/src/core/cpu/thumb/branch.zig
@@ -1,54 +0,0 @@
 const Bus = @import("../../Bus.zig");
 const Arm7tdmi = @import("../../cpu.zig").Arm7tdmi;
 const InstrFn = @import("../../cpu.zig").thumb.InstrFn;
 const checkCond = @import("../../cpu.zig").checkCond;
 const sext = @import("../../../util.zig").sext;
 pub fn fmt16(comptime cond: u4) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u16) void {
            // B
            if (cond == 0xE or cond == 0xF)
                cpu.panic("[CPU/THUMB.16] Undefined conditional branch with condition {}", .{cond});
            if (!checkCond(cpu.cpsr, cond)) return;
            cpu.r[15] +%= sext(u32, u8, opcode & 0xFF) << 1;
            cpu.pipe.reload(cpu);
        }
    }.inner;
 }
 pub fn fmt18() InstrFn {
    return struct {
        // B but conditional
        fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u16) void {
            cpu.r[15] +%= sext(u32, u11, opcode & 0x7FF) << 1;
            cpu.pipe.reload(cpu);
        }
    }.inner;
 }
 pub fn fmt19(comptime is_low: bool) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u16) void {
            // BL
            const offset = opcode & 0x7FF;
            if (is_low) {
                // Instruction 2
                const next_opcode = cpu.r[15] - 2;
                cpu.r[15] = cpu.r[14] +% (offset << 1);
                cpu.r[14] = next_opcode | 1;
                cpu.pipe.reload(cpu);
            } else {
                // Instruction 1
                const lr_offset = sext(u32, u11, offset) << 12;
                cpu.r[14] = (cpu.r[15] +% lr_offset) & ~@as(u32, 1);
            }
        }
    }.inner;
 }
--- a/src/core/cpu/thumb/data_processing.zig
+++ b/src/core/cpu/thumb/data_processing.zig
@@ -1,199 +0,0 @@
 const Bus = @import("../../Bus.zig");
 const Arm7tdmi = @import("../../cpu.zig").Arm7tdmi;
 const InstrFn = @import("../../cpu.zig").thumb.InstrFn;
 const add = @import("../arm/data_processing.zig").add;
 const lsl = @import("../barrel_shifter.zig").lsl;
 const lsr = @import("../barrel_shifter.zig").lsr;
 const asr = @import("../barrel_shifter.zig").asr;
 pub fn fmt1(comptime op: u2, comptime offset: u5) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u16) void {
            const rs = opcode >> 3 & 0x7;
            const rd = opcode & 0x7;
            const result = switch (op) {
                0b00 => blk: {
                    // LSL
                    if (offset == 0) {
                        break :blk cpu.r[rs];
                    } else {
                        break :blk lsl(true, &cpu.cpsr, cpu.r[rs], offset);
                    }
                },
                0b01 => blk: {
                    // LSR
                    if (offset == 0) {
                        cpu.cpsr.c.write(cpu.r[rs] >> 31 & 1 == 1);
                        break :blk @as(u32, 0);
                    } else {
                        break :blk lsr(true, &cpu.cpsr, cpu.r[rs], offset);
                    }
                },
                0b10 => blk: {
                    // ASR
                    if (offset == 0) {
                        cpu.cpsr.c.write(cpu.r[rs] >> 31 & 1 == 1);
                        break :blk @bitCast(u32, @bitCast(i32, cpu.r[rs]) >> 31);
                    } else {
                        break :blk asr(true, &cpu.cpsr, cpu.r[rs], offset);
                    }
                },
                else => cpu.panic("[CPU/THUMB.1] 0b{b:0>2} is not a valid op", .{op}),
            };
            // Equivalent to an ARM MOVS
            cpu.r[rd] = result;
            // Write Flags
            cpu.cpsr.n.write(result >> 31 & 1 == 1);
            cpu.cpsr.z.write(result == 0);
        }
    }.inner;
 }
 pub fn fmt5(comptime op: u2, comptime h1: u1, comptime h2: u1) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u16) void {
            const rs = @as(u4, h2) << 3 | (opcode >> 3 & 0x7);
            const rd = @as(u4, h1) << 3 | (opcode & 0x7);
            const op1 = cpu.r[rd];
            const op2 = cpu.r[rs];
            var result: u32 = undefined;
            var overflow: bool = undefined;
            switch (op) {
                0b00 => result = add(&overflow, op1, op2), // ADD
                0b01 => result = op1 -% op2, // CMP
                0b10 => result = op2, // MOV
                0b11 => {},
            }
            // Write to Destination Register
            switch (op) {
                0b01 => {}, // Test Instruction
                0b11 => {
                    // BX
                    const is_thumb = op2 & 1 == 1;
                    cpu.r[15] = op2 & ~@as(u32, 1);
                    cpu.cpsr.t.write(is_thumb);
                    cpu.pipe.reload(cpu);
                },
                else => {
                    cpu.r[rd] = result;
                    if (rd == 0xF) {
                        cpu.r[15] &= ~@as(u32, 1);
                        cpu.pipe.reload(cpu);
                    }
                },
            }
            // Write Flags
            switch (op) {
                0b01 => {
                    // CMP
                    cpu.cpsr.n.write(result >> 31 & 1 == 1);
                    cpu.cpsr.z.write(result == 0);
                    cpu.cpsr.c.write(op2 <= op1);
                    cpu.cpsr.v.write(((op1 ^ result) & (~op2 ^ result)) >> 31 & 1 == 1);
                },
                0b00, 0b10, 0b11 => {}, // MOV and Branch Instruction
            }
        }
    }.inner;
 }
 pub fn fmt2(comptime I: bool, is_sub: bool, rn: u3) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u16) void {
            const rs = opcode >> 3 & 0x7;
            const rd = @truncate(u3, opcode);
            const op1 = cpu.r[rs];
            const op2: u32 = if (I) rn else cpu.r[rn];
            if (is_sub) {
                // SUB
                const result = op1 -% op2;
                cpu.r[rd] = result;
                cpu.cpsr.n.write(result >> 31 & 1 == 1);
                cpu.cpsr.z.write(result == 0);
                cpu.cpsr.c.write(op2 <= op1);
                cpu.cpsr.v.write(((op1 ^ result) & (~op2 ^ result)) >> 31 & 1 == 1);
            } else {
                // ADD
                var overflow: bool = undefined;
                const result = add(&overflow, op1, op2);
                cpu.r[rd] = result;
                cpu.cpsr.n.write(result >> 31 & 1 == 1);
                cpu.cpsr.z.write(result == 0);
                cpu.cpsr.c.write(overflow);
                cpu.cpsr.v.write(((op1 ^ result) & (op2 ^ result)) >> 31 & 1 == 1);
            }
        }
    }.inner;
 }
 pub fn fmt3(comptime op: u2, comptime rd: u3) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u16) void {
            const op1 = cpu.r[rd];
            const op2: u32 = opcode & 0xFF; // Offset
            var overflow: bool = undefined;
            const result: u32 = switch (op) {
                0b00 => op2, // MOV
                0b01 => op1 -% op2, // CMP
                0b10 => add(&overflow, op1, op2), // ADD
                0b11 => op1 -% op2, // SUB
            };
            // Write to Register
            if (op != 0b01) cpu.r[rd] = result;
            // Write Flags
            cpu.cpsr.n.write(result >> 31 & 1 == 1);
            cpu.cpsr.z.write(result == 0);
            switch (op) {
                0b00 => {}, // MOV | C set by Barrel Shifter, V is unaffected
                0b01, 0b11 => {
                    // SUB, CMP
                    cpu.cpsr.c.write(op2 <= op1);
                    cpu.cpsr.v.write(((op1 ^ result) & (~op2 ^ result)) >> 31 & 1 == 1);
                },
                0b10 => {
                    // ADD
                    cpu.cpsr.c.write(overflow);
                    cpu.cpsr.v.write(((op1 ^ result) & (op2 ^ result)) >> 31 & 1 == 1);
                },
            }
        }
    }.inner;
 }
 pub fn fmt12(comptime isSP: bool, comptime rd: u3) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u16) void {
            // ADD
            const left = if (isSP) cpu.r[13] else cpu.r[15] & ~@as(u32, 2);
            const right = (opcode & 0xFF) << 2;
            cpu.r[rd] = left + right;
        }
    }.inner;
 }
 pub fn fmt13(comptime S: bool) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u16) void {
            // ADD
            const offset = (opcode & 0x7F) << 2;
            cpu.r[13] = if (S) cpu.r[13] - offset else cpu.r[13] + offset;
        }
    }.inner;
 }
--- a/src/core/cpu/thumb/data_transfer.zig
+++ b/src/core/cpu/thumb/data_transfer.zig
@@ -1,145 +0,0 @@
 const Bus = @import("../../Bus.zig");
 const Arm7tdmi = @import("../../cpu.zig").Arm7tdmi;
 const InstrFn = @import("../../cpu.zig").thumb.InstrFn;
 const rotr = @import("../../../util.zig").rotr;
 const sext = @import("../../../util.zig").sext;
 pub fn fmt6(comptime rd: u3) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, bus: *Bus, opcode: u16) void {
            // LDR
            const offset = (opcode & 0xFF) << 2;
            // Bit 1 of the PC intentionally ignored
            cpu.r[rd] = bus.read(u32, (cpu.r[15] & ~@as(u32, 2)) + offset);
        }
    }.inner;
 }
 pub fn fmt78(comptime op: u2, comptime T: bool) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, bus: *Bus, opcode: u16) void {
            const ro = opcode >> 6 & 0x7;
            const rb = opcode >> 3 & 0x7;
            const rd = opcode & 0x7;
            const address = cpu.r[rb] +% cpu.r[ro];
            if (T) {
                // Format 8
                switch (op) {
                    0b00 => {
                        // STRH
                        bus.write(u16, address, @truncate(u16, cpu.r[rd]));
                    },
                    0b01 => {
                        // LDSB
                        cpu.r[rd] = sext(u32, u8, bus.read(u8, address));
                    },
                    0b10 => {
                        // LDRH
                        const value = bus.read(u16, address);
                        cpu.r[rd] = rotr(u32, value, 8 * (address & 1));
                    },
                    0b11 => {
                        // LDRSH
                        const value = bus.read(u16, address);
                        cpu.r[rd] = if (address & 1 == 1) sext(u32, u8, @truncate(u8, value >> 8)) else sext(u32, u16, value);
                    },
                }
            } else {
                // Format 7
                switch (op) {
                    0b00 => {
                        // STR
                        bus.write(u32, address, cpu.r[rd]);
                    },
                    0b01 => {
                        // STRB
                        bus.write(u8, address, @truncate(u8, cpu.r[rd]));
                    },
                    0b10 => {
                        // LDR
                        const value = bus.read(u32, address);
                        cpu.r[rd] = rotr(u32, value, 8 * (address & 0x3));
                    },
                    0b11 => {
                        // LDRB
                        cpu.r[rd] = bus.read(u8, address);
                    },
                }
            }
        }
    }.inner;
 }
 pub fn fmt9(comptime B: bool, comptime L: bool, comptime offset: u5) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, bus: *Bus, opcode: u16) void {
            const rb = opcode >> 3 & 0x7;
            const rd = opcode & 0x7;
            if (L) {
                if (B) {
                    // LDRB
                    const address = cpu.r[rb] + offset;
                    cpu.r[rd] = bus.read(u8, address);
                } else {
                    // LDR
                    const address = cpu.r[rb] + (@as(u32, offset) << 2);
                    const value = bus.read(u32, address);
                    cpu.r[rd] = rotr(u32, value, 8 * (address & 0x3));
                }
            } else {
                if (B) {
                    // STRB
                    const address = cpu.r[rb] + offset;
                    bus.write(u8, address, @truncate(u8, cpu.r[rd]));
                } else {
                    // STR
                    const address = cpu.r[rb] + (@as(u32, offset) << 2);
                    bus.write(u32, address, cpu.r[rd]);
                }
            }
        }
    }.inner;
 }
 pub fn fmt10(comptime L: bool, comptime offset: u5) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, bus: *Bus, opcode: u16) void {
            const rb = opcode >> 3 & 0x7;
            const rd = opcode & 0x7;
            const address = cpu.r[rb] + (@as(u6, offset) << 1);
            if (L) {
                // LDRH
                const value = bus.read(u16, address);
                cpu.r[rd] = rotr(u32, value, 8 * (address & 1));
            } else {
                // STRH
                bus.write(u16, address, @truncate(u16, cpu.r[rd]));
            }
        }
    }.inner;
 }
 pub fn fmt11(comptime L: bool, comptime rd: u3) InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, bus: *Bus, opcode: u16) void {
            const offset = (opcode & 0xFF) << 2;
            const address = cpu.r[13] + offset;
            if (L) {
                // LDR
                const value = bus.read(u32, address);
                cpu.r[rd] = rotr(u32, value, 8 * (address & 0x3));
            } else {
                // STR
                bus.write(u32, address, cpu.r[rd]);
            }
        }
    }.inner;
 }
--- a/src/core/cpu/thumb/software_interrupt.zig
+++ b/src/core/cpu/thumb/software_interrupt.zig
@@ -1,23 +0,0 @@
 const Bus = @import("../../Bus.zig");
 const Arm7tdmi = @import("../../cpu.zig").Arm7tdmi;
 const InstrFn = @import("../../cpu.zig").thumb.InstrFn;
 pub fn fmt17() InstrFn {
    return struct {
        fn inner(cpu: *Arm7tdmi, _: *Bus, _: u16) void {
            // Copy Values from Current Mode
            const ret_addr = cpu.r[15] - 2;
            const cpsr = cpu.cpsr.raw;
            // Switch Mode
            cpu.changeMode(.Supervisor);
            cpu.cpsr.t.write(false); // Force ARM Mode
            cpu.cpsr.i.write(true); // Disable normal interrupts
            cpu.r[14] = ret_addr; // Resume Execution
            cpu.spsr.raw = cpsr; // Previous mode CPSR
            cpu.r[15] = 0x0000_0008;
            cpu.pipe.reload(cpu);
        }
    }.inner;
 }
--- a/src/core/cpu_util.zig
+++ b/src/core/cpu_util.zig
@@ -0,0 +1,75 @@
 const std = @import("std");
 const Arm7tdmi = @import("arm32").Arm7tdmi;
 const Bank = @import("arm32").Arm7tdmi.Bank;
 const Bus = @import("Bus.zig");
 pub inline fn isHalted(cpu: *const Arm7tdmi) bool {
    const bus_ptr: *Bus = @ptrCast(@alignCast(cpu.bus.ptr));
    return bus_ptr.io.haltcnt == .Halt;
 }
 pub fn stepDmaTransfer(cpu: *Arm7tdmi) bool {
    const bus_ptr: *Bus = @ptrCast(@alignCast(cpu.bus.ptr));
    inline for (0..4) |i| {
        if (bus_ptr.dma[i].in_progress) {
            bus_ptr.dma[i].step(cpu);
            return true;
        }
    }
    return false;
 }
 pub fn handleInterrupt(cpu: *Arm7tdmi) void {
    const bus_ptr: *Bus = @ptrCast(@alignCast(cpu.bus.ptr));
    const should_handle = bus_ptr.io.ie.raw & bus_ptr.io.irq.raw;
    // Return if IME is disabled, CPSR I is set or there is nothing to handle
    if (!bus_ptr.io.ime or cpu.cpsr.i.read() or should_handle == 0) return;
    // If Pipeline isn't full, we have a bug
    std.debug.assert(cpu.pipe.isFull());
    // log.debug("Handling Interrupt!", .{});
    bus_ptr.io.haltcnt = .Execute;
    // FIXME: This seems weird, but retAddr.gba suggests I need to make these changes
    const ret_addr = cpu.r[15] - if (cpu.cpsr.t.read()) 0 else @as(u32, 4);
    const new_spsr = cpu.cpsr.raw;
    cpu.changeMode(.Irq);
    cpu.cpsr.t.write(false);
    cpu.cpsr.i.write(true);
    cpu.r[14] = ret_addr;
    cpu.spsr.raw = new_spsr;
    cpu.r[15] = 0x0000_0018;
    cpu.pipe.reload(cpu);
 }
 /// Advances state so that the BIOS is skipped
 ///
 /// Note: This accesses the CPU's bus ptr so it only may be called
 /// once the Bus has been properly initialized
 ///
 /// TODO: Make above notice impossible to do in code
 pub fn fastBoot(cpu: *Arm7tdmi) void {
    const bus_ptr: *Bus = @ptrCast(@alignCast(cpu.bus.ptr));
    cpu.r = std.mem.zeroes([16]u32);
    // cpu.r[0] = 0x08000000;
    // cpu.r[1] = 0x000000EA;
    cpu.r[13] = 0x0300_7F00;
    cpu.r[15] = 0x0800_0000;
    cpu.bank.r[Bank.regIdx(.Irq, .R13)] = 0x0300_7FA0;
    cpu.bank.r[Bank.regIdx(.Supervisor, .R13)] = 0x0300_7FE0;
    // cpu.cpsr.raw = 0x6000001F;
    cpu.cpsr.raw = 0x0000_001F;
    bus_ptr.bios.addr_latch = 0x0000_00DC + 8;
 }
--- a/src/core/emu.zig
+++ b/src/core/emu.zig
@@ -3,12 +3,17 @@ const SDL = @import("sdl2");
 const config = @import("../config.zig");
 const Scheduler = @import("scheduler.zig").Scheduler;
-const Arm7tdmi = @import("cpu.zig").Arm7tdmi;
+const Arm7tdmi = @import("arm32").Arm7tdmi;
-const FpsTracker = @import("../util.zig").FpsTracker;
+const Bus = @import("Bus.zig");
-const RingBuffer = @import("../util.zig").RingBuffer;
+const Tracker = @import("../util.zig").FpsTracker;
 const Channel = @import("zba-util").Channel(Message, 0x100);
 pub const Message = enum { Pause, Resume, Quit };
 const stepDmaTransfer = @import("cpu_util.zig").stepDmaTransfer;
 const isHalted = @import("cpu_util.zig").isHalted;
 const Timer = std.time.Timer;
 const Atomic = std.atomic.Atomic;
 /// 4 Cycles in 1 dot
 const cycles_per_dot = 4;
@@ -25,7 +30,7 @@ const frame_period = (std.time.ns_per_s * cycles_per_frame) / clock_rate;
 /// Exact Value:  59.7275005696Hz
 /// The inverse of the frame period
-pub const frame_rate: f64 = @intToFloat(f64, clock_rate) / cycles_per_frame;
+pub const frame_rate: f64 = @as(f64, @floatFromInt(clock_rate)) / cycles_per_frame;
 const log = std.log.scoped(.Emulation);
@@ -36,30 +41,41 @@ const RunKind = enum {
    LimitedFPS,
 };
-pub fn run(quit: *Atomic(bool), scheduler: *Scheduler, cpu: *Arm7tdmi, tracker: *FpsTracker) void {
+pub fn run(cpu: *Arm7tdmi, scheduler: *Scheduler, tracker: *Tracker, rx: Channel.Receiver) void {
    const audio_sync = config.config().guest.audio_sync and !config.config().host.mute;
    if (audio_sync) log.info("Audio sync enabled", .{});
    if (config.config().guest.video_sync) {
-        inner(.LimitedFPS, audio_sync, quit, scheduler, cpu, tracker);
+        inner(.LimitedFPS, audio_sync, cpu, scheduler, tracker, rx);
    } else {
-        inner(.UnlimitedFPS, audio_sync, quit, scheduler, cpu, tracker);
+        inner(.UnlimitedFPS, audio_sync, cpu, scheduler, tracker, rx);
    }
 }
-fn inner(comptime kind: RunKind, audio_sync: bool, quit: *Atomic(bool), scheduler: *Scheduler, cpu: *Arm7tdmi, tracker: ?*FpsTracker) void {
+fn inner(comptime kind: RunKind, audio_sync: bool, cpu: *Arm7tdmi, scheduler: *Scheduler, tracker: ?*Tracker, rx: Channel.Receiver) void {
    if (kind == .UnlimitedFPS or kind == .LimitedFPS) {
        std.debug.assert(tracker != null);
        log.info("FPS tracking enabled", .{});
    }
    const bus_ptr: *Bus = @ptrCast(@alignCast(cpu.bus.ptr));
    var paused: bool = false;
    switch (kind) {
        .Unlimited, .UnlimitedFPS => {
            log.info("Emulation w/out video sync", .{});
-            while (!quit.load(.Monotonic)) {
+            while (true) {
                if (rx.recv()) |m| switch (m) {
                    .Quit => break,
                    .Resume, .Pause => paused = m == .Pause,
                };
                if (paused) continue;
                runFrame(scheduler, cpu);
-                audioSync(audio_sync, &cpu.bus.apu.sample_queue);
+                audioSync(audio_sync, bus_ptr.apu.stream, &bus_ptr.apu.is_buffer_full);
                if (kind == .UnlimitedFPS) tracker.?.tick();
            }
@@ -69,7 +85,14 @@ fn inner(comptime kind: RunKind, audio_sync: bool, quit: *Atomic(bool), schedule
            var timer = Timer.start() catch @panic("failed to initalize std.timer.Timer");
            var wake_time: u64 = frame_period;
-            while (!quit.load(.Monotonic)) {
+            while (true) {
                if (rx.recv()) |m| switch (m) {
                    .Quit => break,
                    .Resume, .Pause => paused = m == .Pause,
                };
                if (paused) continue;
                runFrame(scheduler, cpu);
                const new_wake_time = videoSync(&timer, wake_time);
@@ -78,7 +101,7 @@ fn inner(comptime kind: RunKind, audio_sync: bool, quit: *Atomic(bool), schedule
                // the amount of time needed for audio to catch up rather than
                // our expected wake-up time
-                audioSync(audio_sync, &cpu.bus.apu.sample_queue);
+                audioSync(audio_sync, bus_ptr.apu.stream, &bus_ptr.apu.is_buffer_full);
                if (!audio_sync) spinLoop(&timer, wake_time);
                wake_time = new_wake_time;
@@ -92,10 +115,10 @@ pub fn runFrame(sched: *Scheduler, cpu: *Arm7tdmi) void {
    const frame_end = sched.tick + cycles_per_frame;
    while (sched.tick < frame_end) {
-        if (!cpu.stepDmaTransfer()) {
+        if (!stepDmaTransfer(cpu)) {
-            if (cpu.isHalted()) {
+            if (isHalted(cpu)) {
                // Fast-forward to next Event
-                sched.tick = sched.queue.peek().?.tick;
+                sched.tick = sched.nextTimestamp();
            } else {
                cpu.step();
            }
@@ -105,13 +128,26 @@ pub fn runFrame(sched: *Scheduler, cpu: *Arm7tdmi) void {
    }
 }
-fn audioSync(audio_sync: bool, sample_queue: *RingBuffer(u16)) void {
+fn audioSync(audio_sync: bool, stream: *SDL.SDL_AudioStream, is_buffer_full: *bool) void {
    comptime std.debug.assert(@import("../platform.zig").sample_format == SDL.AUDIO_U16);
-    // const sample_size = 2 * @sizeOf(u16);
+    const sample_size = 2 * @sizeOf(u16);
-    // const max_buf_size: c_int = 0x400;
+    const max_buf_size: c_int = 0x400;
-    _ = audio_sync;
+    // Determine whether the APU is busy right at this moment
-    _ = sample_queue;
+    var still_full: bool = SDL.SDL_AudioStreamAvailable(stream) > sample_size * if (is_buffer_full.*) max_buf_size >> 1 else max_buf_size;
    defer is_buffer_full.* = still_full; // Update APU Busy status right before exiting scope
    // If Busy is false, there's no need to sync here
    if (!still_full) return;
    // TODO: Refactor!!!!
    // while (SDL.SDL_AudioStreamAvailable(stream) > sample_size * max_buf_size >> 1)
    //     std.atomic.spinLoopHint();
    while (true) {
        still_full = SDL.SDL_AudioStreamAvailable(stream) > sample_size * max_buf_size >> 1;
        if (!audio_sync or !still_full) break;
    }
 }
 fn videoSync(timer: *Timer, wake_time: u64) u64 {
@@ -138,9 +174,8 @@ fn sleep(timer: *Timer, wake_time: u64) ?u64 {
    const step = 2 * std.time.ns_per_ms; // Granularity of 2ms
    const times = sleep_for / step;
    var i: usize = 0;
-    while (i < times) : (i += 1) {
+    for (0..times) |_| {
        std.time.sleep(step);
        // Upon wakeup, check to see if this particular sleep was longer than expected
@@ -153,5 +188,86 @@ fn sleep(timer: *Timer, wake_time: u64) ?u64 {
 }
 fn spinLoop(timer: *Timer, wake_time: u64) void {
-    while (true) if (timer.read() > wake_time) break;
+    while (timer.read() < wake_time)
        std.atomic.spinLoopHint();
 }
 pub const EmuThing = struct {
    const Self = @This();
    const Interface = @import("gdbstub").Emulator;
    const Allocator = std.mem.Allocator;
    cpu: *Arm7tdmi,
    scheduler: *Scheduler,
    pub fn init(cpu: *Arm7tdmi, scheduler: *Scheduler) Self {
        return .{ .cpu = cpu, .scheduler = scheduler };
    }
    pub fn interface(self: *Self, allocator: Allocator) Interface {
        return Interface.init(allocator, self);
    }
    pub fn read(self: *const Self, addr: u32) u8 {
        return self.cpu.bus.dbgRead(u8, addr);
    }
    pub fn write(self: *Self, addr: u32, value: u8) void {
        self.cpu.bus.dbgWrite(u8, addr, value);
    }
    pub fn registers(self: *const Self) *[16]u32 {
        return &self.cpu.r;
    }
    pub fn cpsr(self: *const Self) u32 {
        return self.cpu.cpsr.raw;
    }
    pub fn step(self: *Self) void {
        const cpu = self.cpu;
        const sched = self.scheduler;
        // Is true when we have executed one (1) instruction
        var did_step: bool = false;
        // TODO: How can I make it easier to keep this in lock-step with runFrame?
        while (!did_step) {
            if (!stepDmaTransfer(cpu)) {
                if (isHalted(cpu)) {
                    // Fast-forward to next Event
                    sched.tick = sched.queue.peek().?.tick;
                } else {
                    cpu.step();
                    did_step = true;
                }
            }
            if (sched.tick >= sched.nextTimestamp()) sched.handleEvent(cpu);
        }
    }
 };
 pub fn reset(cpu: *Arm7tdmi) void {
    // @breakpoint();
    cpu.sched.reset(); // Yes this is order sensitive, see the PPU reset for why
    cpu.bus.reset();
    cpu.reset();
 }
 pub fn replaceGamepak(cpu: *Arm7tdmi, file_path: []const u8) !void {
    const bus_ptr: *Bus = @ptrCast(@alignCast(cpu.bus.ptr));
    try bus_ptr.replaceGamepak(file_path);
    reset(cpu);
 }
 pub fn replaceBios(cpu: *Arm7tdmi, file_path: []const u8) !void {
    const bus_ptr: *Bus = @ptrCast(@alignCast(cpu.bus.ptr));
    const allocator = bus_ptr.bios.allocator;
    const bios_len = 0x4000;
    bus_ptr.bios.buf = try allocator.alloc(u8, bios_len);
    try bus_ptr.bios.load(file_path);
 }
--- a/src/core/ppu.zig
+++ b/src/core/ppu.zig
--- a/src/core/ppu/Oam.zig
+++ b/src/core/ppu/Oam.zig
@@ -0,0 +1,44 @@
 const std = @import("std");
 const Allocator = std.mem.Allocator;
 const buf_len = 0x400;
 const Self = @This();
 buf: []u8,
 allocator: Allocator,
 pub fn read(self: *const Self, comptime T: type, address: usize) T {
    const addr = address & 0x3FF;
    return switch (T) {
        u32, u16, u8 => std.mem.readIntSliceLittle(T, self.buf[addr..][0..@sizeOf(T)]),
        else => @compileError("OAM: Unsupported read width"),
    };
 }
 pub fn write(self: *Self, comptime T: type, address: usize, value: T) void {
    const addr = address & 0x3FF;
    switch (T) {
        u32, u16 => std.mem.writeIntSliceLittle(T, self.buf[addr..][0..@sizeOf(T)], value),
        u8 => return, // 8-bit writes are explicitly ignored
        else => @compileError("OAM: Unsupported write width"),
    }
 }
 pub fn init(allocator: Allocator) !Self {
    const buf = try allocator.alloc(u8, buf_len);
    @memset(buf, 0);
    return Self{ .buf = buf, .allocator = allocator };
 }
 pub fn reset(self: *Self) void {
    @memset(self.buf, 0);
 }
 pub fn deinit(self: *Self) void {
    self.allocator.free(self.buf);
    self.* = undefined;
 }
--- a/src/core/ppu/Palette.zig
+++ b/src/core/ppu/Palette.zig
@@ -0,0 +1,51 @@
 const std = @import("std");
 const Allocator = std.mem.Allocator;
 const buf_len = 0x400;
 const Self = @This();
 buf: []u8,
 allocator: Allocator,
 pub fn read(self: *const Self, comptime T: type, address: usize) T {
    const addr = address & 0x3FF;
    return switch (T) {
        u32, u16, u8 => std.mem.readIntSliceLittle(T, self.buf[addr..][0..@sizeOf(T)]),
        else => @compileError("PALRAM: Unsupported read width"),
    };
 }
 pub fn write(self: *Self, comptime T: type, address: usize, value: T) void {
    const addr = address & 0x3FF;
    switch (T) {
        u32, u16 => std.mem.writeIntSliceLittle(T, self.buf[addr..][0..@sizeOf(T)], value),
        u8 => {
            const align_addr = addr & ~@as(u32, 1); // Aligned to Halfword boundary
            std.mem.writeIntSliceLittle(u16, self.buf[align_addr..][0..@sizeOf(u16)], @as(u16, value) * 0x101);
        },
        else => @compileError("PALRAM: Unsupported write width"),
    }
 }
 pub fn init(allocator: Allocator) !Self {
    const buf = try allocator.alloc(u8, buf_len);
    @memset(buf, 0);
    return Self{ .buf = buf, .allocator = allocator };
 }
 pub fn reset(self: *Self) void {
    @memset(self.buf, 0);
 }
 pub fn deinit(self: *Self) void {
    self.allocator.free(self.buf);
    self.* = undefined;
 }
 pub inline fn backdrop(self: *const Self) u16 {
    return std.mem.readIntNative(u16, self.buf[0..2]);
 }
--- a/src/core/ppu/Vram.zig
+++ b/src/core/ppu/Vram.zig
@@ -0,0 +1,64 @@
 const std = @import("std");
 const io = @import("../bus/io.zig");
 const Allocator = std.mem.Allocator;
 const buf_len = 0x18000;
 const Self = @This();
 buf: []u8,
 allocator: Allocator,
 pub fn read(self: *const Self, comptime T: type, address: usize) T {
    const addr = Self.mirror(address);
    return switch (T) {
        u32, u16, u8 => std.mem.readIntSliceLittle(T, self.buf[addr..][0..@sizeOf(T)]),
        else => @compileError("VRAM: Unsupported read width"),
    };
 }
 pub fn write(self: *Self, comptime T: type, dispcnt: io.DisplayControl, address: usize, value: T) void {
    const mode: u3 = dispcnt.bg_mode.read();
    const idx = Self.mirror(address);
    switch (T) {
        u32, u16 => std.mem.writeIntSliceLittle(T, self.buf[idx..][0..@sizeOf(T)], value),
        u8 => {
            // Ignore write if it falls within the boundaries of OBJ VRAM
            switch (mode) {
                0, 1, 2 => if (0x0001_0000 <= idx) return,
                else => if (0x0001_4000 <= idx) return,
            }
            const align_idx = idx & ~@as(u32, 1); // Aligned to a halfword boundary
            std.mem.writeIntSliceLittle(u16, self.buf[align_idx..][0..@sizeOf(u16)], @as(u16, value) * 0x101);
        },
        else => @compileError("VRAM: Unsupported write width"),
    }
 }
 pub fn init(allocator: Allocator) !Self {
    const buf = try allocator.alloc(u8, buf_len);
    @memset(buf, 0);
    return Self{ .buf = buf, .allocator = allocator };
 }
 pub fn reset(self: *Self) void {
    @memset(self.buf, 0);
 }
 pub fn deinit(self: *Self) void {
    self.allocator.free(self.buf);
    self.* = undefined;
 }
 pub fn mirror(address: usize) usize {
    // Mirrored in steps of 128K (64K + 32K + 32K) (abcc)
    const addr = address & 0x1FFFF;
    // If the address is within 96K we don't do anything,
    // otherwise we want to mirror the last 32K (addresses between 64K and 96K)
    return if (addr < buf_len) addr else 0x10000 + (addr & 0x7FFF);
 }
--- a/src/core/scheduler.zig
+++ b/src/core/scheduler.zig
@@ -1,6 +1,7 @@
 const std = @import("std");
-const Arm7tdmi = @import("cpu.zig").Arm7tdmi;
+const Arm7tdmi = @import("arm32").Arm7tdmi;
 const Bus = @import("Bus.zig");
 const Clock = @import("bus/gpio.zig").Clock;
 const Order = std.math.Order;
@@ -11,11 +12,11 @@ const log = std.log.scoped(.Scheduler);
 pub const Scheduler = struct {
    const Self = @This();
-    tick: u64,
+    tick: u64 = 0,
    queue: PriorityQueue(Event, void, lessThan),
    pub fn init(allocator: Allocator) Self {
-        var sched = Self{ .tick = 0, .queue = PriorityQueue(Event, void, lessThan).init(allocator, {}) };
+        var sched = Self{ .queue = PriorityQueue(Event, void, lessThan).init(allocator, {}) };
        sched.queue.add(.{ .kind = .HeatDeath, .tick = std.math.maxInt(u64) }) catch unreachable;
        return sched;
@@ -26,66 +27,73 @@ pub const Scheduler = struct {
        self.* = undefined;
    }
    pub fn reset(self: *Self) void {
        // `std.PriorityQueue` provides no reset function, so we will just create a new one
        const allocator = self.queue.allocator;
        self.queue.deinit();
        var new_queue = PriorityQueue(Event, void, lessThan).init(allocator, {});
        new_queue.add(.{ .kind = .HeatDeath, .tick = std.math.maxInt(u64) }) catch unreachable;
        self.* = .{ .queue = new_queue };
    }
    pub inline fn now(self: *const Self) u64 {
        return self.tick;
    }
    pub fn handleEvent(self: *Self, cpu: *Arm7tdmi) void {
-        if (self.queue.removeOrNull()) |event| {
+        const event = self.queue.remove();
-            const late = self.tick - event.tick;
+        const late = self.tick - event.tick;
-            switch (event.kind) {
+        const bus_ptr: *Bus = @ptrCast(@alignCast(cpu.bus.ptr));
                .HeatDeath => {
                    log.err("u64 overflow. This *actually* should never happen.", .{});
                    unreachable;
                },
                .Draw => {
                    // The end of a VDraw
                    cpu.bus.ppu.drawScanline();
                    cpu.bus.ppu.onHdrawEnd(cpu, late);
                },
                .TimerOverflow => |id| {
                    switch (id) {
                        inline 0...3 => |idx| cpu.bus.tim[idx].onTimerExpire(cpu, late),
                    }
                },
                .ApuChannel => |id| {
                    switch (id) {
                        0 => cpu.bus.apu.ch1.onToneSweepEvent(late),
                        1 => cpu.bus.apu.ch2.onToneEvent(late),
                        2 => cpu.bus.apu.ch3.onWaveEvent(late),
                        3 => cpu.bus.apu.ch4.onNoiseEvent(late),
                    }
                },
                .RealTimeClock => {
                    const device = &cpu.bus.pak.gpio.device;
                    if (device.kind != .Rtc or device.ptr == null) return;
-                    const clock = @ptrCast(*Clock, @alignCast(@alignOf(*Clock), device.ptr.?));
+        switch (event.kind) {
-                    clock.onClockUpdate(late);
+            .HeatDeath => {
-                },
+                log.err("u64 overflow. This *actually* should never happen.", .{});
-                .FrameSequencer => cpu.bus.apu.onSequencerTick(late),
+                unreachable;
-                .SampleAudio => cpu.bus.apu.sampleAudio(late),
+            },
-                .HBlank => cpu.bus.ppu.onHblankEnd(cpu, late), // The end of a HBlank
+            .Draw => {
-                .VBlank => cpu.bus.ppu.onHdrawEnd(cpu, late), // The end of a VBlank
+                // The end of a VDraw
-            }
+                bus_ptr.ppu.drawScanline();
                bus_ptr.ppu.onHdrawEnd(cpu, late);
            },
            .TimerOverflow => |id| {
                switch (id) {
                    inline 0...3 => |idx| bus_ptr.tim[idx].onTimerExpire(cpu, late),
                }
            },
            .ApuChannel => |id| {
                switch (id) {
                    0 => bus_ptr.apu.ch1.onToneSweepEvent(late),
                    1 => bus_ptr.apu.ch2.onToneEvent(late),
                    2 => bus_ptr.apu.ch3.onWaveEvent(late),
                    3 => bus_ptr.apu.ch4.onNoiseEvent(late),
                }
            },
            .RealTimeClock => {
                const device = &bus_ptr.pak.gpio.device;
                if (device.kind != .Rtc or device.ptr == null) return;
                const clock: *Clock = @ptrCast(@alignCast(device.ptr.?));
                clock.onClockUpdate(late);
            },
            .FrameSequencer => bus_ptr.apu.onSequencerTick(late),
            .SampleAudio => bus_ptr.apu.sampleAudio(late),
            .HBlank => bus_ptr.ppu.onHblankEnd(cpu, late), // The end of a HBlank
            .VBlank => bus_ptr.ppu.onHdrawEnd(cpu, late), // The end of a VBlank
        }
    }
    /// Removes the **first** scheduled event of type `needle`
    pub fn removeScheduledEvent(self: *Self, needle: EventKind) void {
-        var it = self.queue.iterator();
+        for (self.queue.items, 0..) |event, i| {
        var i: usize = 0;
        while (it.next()) |event| : (i += 1) {
            if (std.meta.eql(event.kind, needle)) {
-                // This invalidates the iterator
+                // invalidates the slice we're iterating over
                _ = self.queue.removeIndex(i);
-                // Since removing something from the PQ invalidates the iterator,
+                log.debug("Removed {?}@{}", .{ event.kind, event.tick });
                // this implementation can safely only remove the first instance of
                // a Scheduled Event. Exit Early
                break;
            }
        }
--- a/src/imgui.zig
+++ b/src/imgui.zig
@@ -0,0 +1,491 @@
 //! Namespace for dealing with ZBA's immediate-mode GUI
 //! Currently, ZBA uses zgui from https://github.com/michal-z/zig-gamedev
 //! which provides Zig bindings for https://github.com/ocornut/imgui under the hood
 const std = @import("std");
 const zgui = @import("zgui");
 const gl = @import("gl");
 const nfd = @import("nfd");
 const config = @import("config.zig");
 const emu = @import("core/emu.zig");
 const Gui = @import("platform.zig").Gui;
 const Arm7tdmi = @import("arm32").Arm7tdmi;
 const Scheduler = @import("core/scheduler.zig").Scheduler;
 const Bus = @import("core/Bus.zig");
 const RingBuffer = @import("zba-util").RingBuffer;
 const Dimensions = @import("platform.zig").Dimensions;
 const Allocator = std.mem.Allocator;
 const GLuint = gl.GLuint;
 const gba_width = @import("core/ppu.zig").width;
 const gba_height = @import("core/ppu.zig").height;
 const log = std.log.scoped(.Imgui);
 // two seconds worth of fps values into the past
 const histogram_len = 0x80;
 /// Immediate-Mode GUI State
 pub const State = struct {
    title: [12:0]u8,
    fps_hist: RingBuffer(u32),
    should_quit: bool = false,
    emulation: Emulation,
    win_stat: WindowStatus = .{},
    const WindowStatus = struct {
        show_deps: bool = false,
        show_regs: bool = false,
        show_schedule: bool = false,
        show_perf: bool = false,
        show_palette: bool = false,
    };
    const Emulation = union(enum) {
        Active,
        Inactive,
        Transition: enum { Active, Inactive },
    };
    /// if zba is initialized with a ROM already provided, this initializer should be called
    /// with `title_opt` being non-null
    pub fn init(allocator: Allocator, title_opt: ?*const [12]u8) !@This() {
        const history = try allocator.alloc(u32, histogram_len);
        return .{
            .title = handleTitle(title_opt),
            .emulation = if (title_opt == null) .Inactive else .{ .Transition = .Active },
            .fps_hist = RingBuffer(u32).init(history),
        };
    }
    pub fn deinit(self: *@This(), allocator: Allocator) void {
        allocator.free(self.fps_hist.buf);
        self.* = undefined;
    }
 };
 pub fn draw(state: *State, win_dim: Dimensions, tex_id: GLuint, cpu: *Arm7tdmi) bool {
    const scn_scale = config.config().host.win_scale;
    const bus_ptr: *Bus = @ptrCast(@alignCast(cpu.bus.ptr));
    zgui.backend.newFrame(@floatFromInt(win_dim.width), @floatFromInt(win_dim.height));
    {
        _ = zgui.beginMainMenuBar();
        defer zgui.endMainMenuBar();
        if (zgui.beginMenu("File", true)) {
            defer zgui.endMenu();
            if (zgui.menuItem("Quit", .{}))
                state.should_quit = true;
            if (zgui.menuItem("Insert ROM", .{})) blk: {
                const maybe_path = nfd.openFileDialog("gba", null) catch |e| {
                    log.err("failed to open file dialog: {}", .{e});
                    break :blk;
                };
                const file_path = maybe_path orelse {
                    log.warn("did not receive a file path", .{});
                    break :blk;
                };
                defer nfd.freePath(file_path);
                log.info("user chose: \"{s}\"", .{file_path});
                emu.replaceGamepak(cpu, file_path) catch |e| {
                    log.err("failed to replace GamePak: {}", .{e});
                    break :blk;
                };
                state.title = handleTitle(&bus_ptr.pak.title);
                state.emulation = .{ .Transition = .Active };
            }
            if (zgui.menuItem("Load BIOS", .{})) blk: {
                const maybe_path = nfd.openFileDialog("bin", null) catch |e| {
                    log.err("failed to open file dialog: {}", .{e});
                    break :blk;
                };
                const file_path = maybe_path orelse {
                    log.warn("did not receive a file path", .{});
                    break :blk;
                };
                defer nfd.freePath(file_path);
                log.info("user chose: \"{s}\"", .{file_path});
                emu.replaceBios(cpu, file_path) catch |e| {
                    log.err("failed to replace BIOS: {}", .{e});
                    break :blk;
                };
            }
        }
        if (zgui.beginMenu("Emulation", true)) {
            defer zgui.endMenu();
            if (zgui.menuItem("Registers", .{ .selected = state.win_stat.show_regs }))
                state.win_stat.show_regs = true;
            if (zgui.menuItem("Palette", .{ .selected = state.win_stat.show_palette }))
                state.win_stat.show_palette = true;
            if (zgui.menuItem("Schedule", .{ .selected = state.win_stat.show_schedule }))
                state.win_stat.show_schedule = true;
            if (zgui.menuItem("Paused", .{ .selected = state.emulation == .Inactive })) {
                state.emulation = switch (state.emulation) {
                    .Active => .{ .Transition = .Inactive },
                    .Inactive => .{ .Transition = .Active },
                    else => state.emulation,
                };
            }
            if (zgui.menuItem("Restart", .{}))
                emu.reset(cpu);
        }
        if (zgui.beginMenu("Stats", true)) {
            defer zgui.endMenu();
            if (zgui.menuItem("Performance", .{ .selected = state.win_stat.show_perf }))
                state.win_stat.show_perf = true;
        }
        if (zgui.beginMenu("Help", true)) {
            defer zgui.endMenu();
            if (zgui.menuItem("Dependencies", .{ .selected = state.win_stat.show_deps }))
                state.win_stat.show_deps = true;
        }
    }
    {
        const w: f32 = @floatFromInt(gba_width * scn_scale);
        const h: f32 = @floatFromInt(gba_height * scn_scale);
        const window_title = std.mem.sliceTo(&state.title, 0);
        _ = zgui.begin(window_title, .{ .flags = .{ .no_resize = true, .always_auto_resize = true } });
        defer zgui.end();
        zgui.image(@ptrFromInt(tex_id), .{ .w = w, .h = h, .uv0 = .{ 0, 1 }, .uv1 = .{ 1, 0 } });
    }
    // TODO: Any other steps to respect the copyright of the libraries I use?
    if (state.win_stat.show_deps) {
        _ = zgui.begin("Dependencies", .{ .popen = &state.win_stat.show_deps });
        defer zgui.end();
        zgui.bulletText("known-folders by ziglibs", .{});
        zgui.bulletText("nfd-zig by Fabio Arnold", .{});
        {
            zgui.indent(.{});
            defer zgui.unindent(.{});
            zgui.bulletText("nativefiledialog by Michael Labbe", .{});
        }
        zgui.bulletText("SDL.zig by Felix Queißner", .{});
        {
            zgui.indent(.{});
            defer zgui.unindent(.{});
            zgui.bulletText("SDL by Sam Lantinga", .{});
        }
        zgui.bulletText("tomlz by Matthew Hall", .{});
        zgui.bulletText("zba-gdbstub by Rekai Musuka", .{});
        zgui.bulletText("zba-util by Rekai Musuka", .{});
        zgui.bulletText("zgui by Michal Ziulek", .{});
        {
            zgui.indent(.{});
            defer zgui.unindent(.{});
            zgui.bulletText("DearImGui by Omar Cornut", .{});
        }
        zgui.bulletText("zig-clap by Jimmi Holst Christensen", .{});
        zgui.bulletText("zig-datetime by Jairus Martin", .{});
        zgui.newLine();
        zgui.bulletText("bitfield.zig by Hannes Bredberg and FlorenceOS contributors", .{});
        zgui.bulletText("zig-opengl by Felix Queißner", .{});
        {
            zgui.indent(.{});
            defer zgui.unindent(.{});
            zgui.bulletText("OpenGL-Registry by The Khronos Group", .{});
        }
    }
    if (state.win_stat.show_regs) {
        _ = zgui.begin("Guest Registers", .{ .popen = &state.win_stat.show_regs });
        defer zgui.end();
        for (0..8) |i| {
            zgui.text("R{}: 0x{X:0>8}", .{ i, cpu.r[i] });
            zgui.sameLine(.{});
            const padding = if (8 + i < 10) " " else "";
            zgui.text("{s}R{}: 0x{X:0>8}", .{ padding, 8 + i, cpu.r[8 + i] });
        }
        zgui.separator();
        widgets.psr("CPSR", cpu.cpsr);
        widgets.psr("SPSR", cpu.spsr);
        zgui.separator();
        widgets.interrupts(" IE", bus_ptr.io.ie);
        widgets.interrupts("IRQ", bus_ptr.io.irq);
    }
    if (state.win_stat.show_perf) {
        _ = zgui.begin("Performance", .{ .popen = &state.win_stat.show_perf });
        defer zgui.end();
        const tmp = blk: {
            var buf: [histogram_len]u32 = undefined;
            const len = state.fps_hist.copy(&buf);
            break :blk .{ buf, len };
        };
        const values = tmp[0];
        const len = tmp[1];
        if (len == values.len) _ = state.fps_hist.pop();
        const sorted = blk: {
            var buf: @TypeOf(values) = undefined;
            @memcpy(buf[0..len], values[0..len]);
            std.mem.sort(u32, buf[0..len], {}, std.sort.asc(u32));
            break :blk buf;
        };
        const y_max: f64 = 2 * if (len != 0) @as(f64, @floatFromInt(sorted[len - 1])) else emu.frame_rate;
        const x_max: f64 = @floatFromInt(values.len);
        const y_args = .{ .flags = .{ .no_grid_lines = true } };
        const x_args = .{ .flags = .{ .no_grid_lines = true, .no_tick_labels = true, .no_tick_marks = true } };
        if (zgui.plot.beginPlot("Emulation FPS", .{ .w = 0.0, .flags = .{ .no_title = true, .no_frame = true } })) {
            defer zgui.plot.endPlot();
            zgui.plot.setupLegend(.{ .north = true, .east = true }, .{});
            zgui.plot.setupAxis(.x1, x_args);
            zgui.plot.setupAxis(.y1, y_args);
            zgui.plot.setupAxisLimits(.y1, .{ .min = 0.0, .max = y_max, .cond = .always });
            zgui.plot.setupAxisLimits(.x1, .{ .min = 0.0, .max = x_max, .cond = .always });
            zgui.plot.setupFinish();
            zgui.plot.plotLineValues("FPS", u32, .{ .v = values[0..len] });
        }
        const stats: struct { u32, u32, u32 } = blk: {
            if (len == 0) break :blk .{ 0, 0, 0 };
            const average: u32 = average: {
                var sum: u32 = 0;
                for (sorted[0..len]) |value| sum += value;
                break :average @intCast(sum / len);
            };
            const median = sorted[len / 2];
            const low = sorted[len / 100]; // 1% Low
            break :blk .{ average, median, low };
        };
        zgui.text("Average: {:0>3} fps", .{stats[0]});
        zgui.text(" Median: {:0>3} fps", .{stats[1]});
        zgui.text(" 1% Low: {:0>3} fps", .{stats[2]});
    }
    if (state.win_stat.show_schedule) {
        _ = zgui.begin("Schedule", .{ .popen = &state.win_stat.show_schedule });
        defer zgui.end();
        const scheduler = cpu.sched;
        zgui.text("tick: {X:0>16}", .{scheduler.now()});
        zgui.separator();
        const sched_ptr: *Scheduler = @ptrCast(@alignCast(cpu.sched.ptr));
        const Event = std.meta.Child(@TypeOf(sched_ptr.queue.items));
        var items: [20]Event = undefined;
        const len = sched_ptr.queue.len;
        @memcpy(&items, sched_ptr.queue.items);
        std.mem.sort(Event, items[0..len], {}, widgets.eventDesc(Event));
        for (items[0..len]) |event| {
            zgui.text("{X:0>16} | {?}", .{ event.tick, event.kind });
        }
    }
    if (state.win_stat.show_palette) {
        _ = zgui.begin("Palette", .{ .popen = &state.win_stat.show_palette });
        defer zgui.end();
        widgets.paletteGrid(.Background, cpu);
        zgui.sameLine(.{ .spacing = 20.0 });
        widgets.paletteGrid(.Object, cpu);
    }
    {
        zgui.showDemoWindow(null);
    }
    return true; // request redraw
 }
 const widgets = struct {
    const PaletteKind = enum { Background, Object };
    fn paletteGrid(comptime kind: PaletteKind, cpu: *const Arm7tdmi) void {
        _ = zgui.beginGroup();
        defer zgui.endGroup();
        const address: u32 = switch (kind) {
            .Background => 0x0500_0000,
            .Object => 0x0500_0200,
        };
        for (0..0x100) |i| {
            const offset: u32 = @truncate(i);
            const bgr555 = cpu.bus.dbgRead(u16, address + offset * @sizeOf(u16));
            widgets.colourSquare(bgr555);
            if ((i + 1) % 0x10 != 0) zgui.sameLine(.{});
        }
        zgui.text(@tagName(kind), .{});
    }
    fn colourSquare(bgr555: u16) void {
        // FIXME: working with the packed struct enum is currently broken :pensive:
        const ImguiColorEditFlags_NoInputs: u32 = 1 << 5;
        const ImguiColorEditFlags_NoPicker: u32 = 1 << 2;
        const flags: zgui.ColorEditFlags = @bitCast(ImguiColorEditFlags_NoInputs | ImguiColorEditFlags_NoPicker);
        const b: f32 = @floatFromInt(bgr555 >> 10 & 0x1f);
        const g: f32 = @floatFromInt(bgr555 >> 5 & 0x1F);
        const r: f32 = @floatFromInt(bgr555 & 0x1F);
        var col = [_]f32{ r / 31.0, g / 31.0, b / 31.0 };
        _ = zgui.colorEdit3("", .{ .col = &col, .flags = flags });
    }
    fn interrupts(comptime label: []const u8, int: anytype) void {
        const h = 15.0;
        const w = 9.0 * 2 + 3.5;
        const ww = 9.0 * 3;
        {
            zgui.text(label ++ ":", .{});
            zgui.sameLine(.{});
            _ = zgui.selectable("VBL", .{ .w = w, .h = h, .selected = int.vblank.read() });
            zgui.sameLine(.{});
            _ = zgui.selectable("HBL", .{ .w = w, .h = h, .selected = int.hblank.read() });
            zgui.sameLine(.{});
            _ = zgui.selectable("VCT", .{ .w = w, .h = h, .selected = int.coincidence.read() });
            {
                zgui.sameLine(.{});
                _ = zgui.selectable("TIM0", .{ .w = ww, .h = h, .selected = int.tim0.read() });
                zgui.sameLine(.{});
                _ = zgui.selectable("TIM1", .{ .w = ww, .h = h, .selected = int.tim1.read() });
                zgui.sameLine(.{});
                _ = zgui.selectable("TIM2", .{ .w = ww, .h = h, .selected = int.tim2.read() });
                zgui.sameLine(.{});
                _ = zgui.selectable("TIM3", .{ .w = ww, .h = h, .selected = int.tim3.read() });
            }
            zgui.sameLine(.{});
            _ = zgui.selectable("SRL", .{ .w = w, .h = h, .selected = int.serial.read() });
            {
                zgui.sameLine(.{});
                _ = zgui.selectable("DMA0", .{ .w = ww, .h = h, .selected = int.dma0.read() });
                zgui.sameLine(.{});
                _ = zgui.selectable("DMA1", .{ .w = ww, .h = h, .selected = int.dma1.read() });
                zgui.sameLine(.{});
                _ = zgui.selectable("DMA2", .{ .w = ww, .h = h, .selected = int.dma2.read() });
                zgui.sameLine(.{});
                _ = zgui.selectable("DMA3", .{ .w = ww, .h = h, .selected = int.dma3.read() });
            }
            zgui.sameLine(.{});
            _ = zgui.selectable("KPD", .{ .w = w, .h = h, .selected = int.keypad.read() });
            zgui.sameLine(.{});
            _ = zgui.selectable("GPK", .{ .w = w, .h = h, .selected = int.game_pak.read() });
        }
    }
    fn psr(comptime label: []const u8, register: anytype) void {
        const Mode = @import("arm32").arm.Mode;
        const maybe_mode = std.meta.intToEnum(Mode, register.mode.read()) catch null;
        const mode = if (maybe_mode) |mode| mode.toString() else "???";
        const w = 9.0;
        const h = 15.0;
        zgui.text(label ++ ": 0x{X:0>8}", .{register.raw});
        zgui.sameLine(.{});
        _ = zgui.selectable("N", .{ .w = w, .h = h, .selected = register.n.read() });
        zgui.sameLine(.{});
        _ = zgui.selectable("Z", .{ .w = w, .h = h, .selected = register.z.read() });
        zgui.sameLine(.{});
        _ = zgui.selectable("C", .{ .w = w, .h = h, .selected = register.c.read() });
        zgui.sameLine(.{});
        _ = zgui.selectable("V", .{ .w = w, .h = h, .selected = register.v.read() });
        zgui.sameLine(.{});
        zgui.text("{s}", .{mode});
    }
    fn eventDesc(comptime T: type) fn (void, T, T) bool {
        return struct {
            fn inner(_: void, left: T, right: T) bool {
                return left.tick > right.tick;
            }
        }.inner;
    }
 };
 fn handleTitle(title_opt: ?*const [12]u8) [12:0]u8 {
    if (title_opt == null) return "[N/A Title]\x00".*; // No ROM present
    const title = title_opt.?;
    // ROM Title is an empty string (ImGui hates these)
    if (title[0] == '\x00') return "[No Title]\x00\x00".*;
    return title.* ++ [_:0]u8{};
 }
--- a/src/main.zig
+++ b/src/main.zig
@@ -4,17 +4,21 @@ const known_folders = @import("known_folders");
 const clap = @import("clap");
 const config = @import("config.zig");
 const emu = @import("core/emu.zig");
 const Channel = @import("zba-util").Channel(emu.Message, 0x100);
 const Gui = @import("platform.zig").Gui;
 const Bus = @import("core/Bus.zig");
 const Arm7tdmi = @import("core/cpu.zig").Arm7tdmi;
 const Scheduler = @import("core/scheduler.zig").Scheduler;
 const FilePaths = @import("util.zig").FilePaths;
-
+const FpsTracker = @import("util.zig").FpsTracker;
 const Allocator = std.mem.Allocator;
 const Arm7tdmi = @import("arm32").Arm7tdmi;
 const IBus = @import("arm32").Bus;
 const IScheduler = @import("arm32").Scheduler;
 const log = std.log.scoped(.Cli);
 const width = @import("core/ppu.zig").width;
 const height = @import("core/ppu.zig").height;
 pub const log_level = if (builtin.mode != .Debug) .info else std.log.default_level;
 // CLI Arguments + Help Text
@@ -22,6 +26,7 @@ const params = clap.parseParamsComptime(
    \\-h, --help            Display this help and exit.
    \\-s, --skip            Skip BIOS.
    \\-b, --bios <str>      Optional path to a GBA BIOS ROM.
    \\ --gdb                Run ZBA from the context of a GDB Server
    \\<str>                 Path to the GBA GamePak ROM.
    \\
 );
@@ -29,7 +34,7 @@ const params = clap.parseParamsComptime(
 pub fn main() void {
    // Main Allocator for ZBA
    var gpa = std.heap.GeneralPurposeAllocator(.{}){};
-    defer std.debug.assert(!gpa.deinit());
+    defer std.debug.assert(gpa.deinit() == .ok);
    const allocator = gpa.allocator();
@@ -68,9 +73,10 @@ pub fn main() void {
    const paths = handleArguments(allocator, data_path, &result) catch |e| exitln("failed to handle cli arguments: {}", .{e});
    defer if (paths.save) |path| allocator.free(path);
-    const log_file = if (config.config().debug.cpu_trace) blk: {
+    const log_file = switch (config.config().debug.cpu_trace) {
-        break :blk std.fs.cwd().createFile("zba.log", .{}) catch |e| exitln("failed to create trace log file: {}", .{e});
+        true => std.fs.cwd().createFile("zba.log", .{}) catch |e| exitln("failed to create trace log file: {}", .{e}),
-    } else null;
+        false => null,
    };
    defer if (log_file) |file| file.close();
    // TODO: Take Emulator Init Code out of main.zig
@@ -78,24 +84,75 @@ pub fn main() void {
    defer scheduler.deinit();
    var bus: Bus = undefined;
-    var cpu = Arm7tdmi.init(&scheduler, &bus, log_file);
+
    var ischeduler = IScheduler.init(&scheduler);
    var ibus = IBus.init(&bus);
    var cpu = Arm7tdmi.init(ischeduler, ibus);
    bus.init(allocator, &scheduler, &cpu, paths) catch |e| exitln("failed to init zba bus: {}", .{e});
    defer bus.deinit();
-    if (config.config().guest.skip_bios or result.args.skip or paths.bios == null) {
+    if (config.config().guest.skip_bios or result.args.skip != 0 or paths.bios == null) {
-        cpu.fastBoot();
+        @import("core/cpu_util.zig").fastBoot(&cpu);
    }
-    var gui = Gui.init(&bus.pak.title, &bus.apu, width, height) catch |e| exitln("failed to init gui: {}", .{e});
+    const title_ptr = if (paths.rom != null) &bus.pak.title else null;
    // TODO: Just copy the title instead of grabbing a pointer to it
    var gui = Gui.init(allocator, &bus.apu, title_ptr) catch |e| exitln("failed to init gui: {}", .{e});
    defer gui.deinit();
-    gui.run(&cpu, &scheduler) catch |e| exitln("failed to run gui thread: {}", .{e});
+    var quit = std.atomic.Atomic(bool).init(false);
    var ch = Channel.init(allocator) catch |e| exitln("failed to initialize ui -> emu thread message channel: {}", .{e});
    defer ch.deinit(allocator);
    if (result.args.gdb != 0) {
        const Server = @import("gdbstub").Server;
        const EmuThing = @import("core/emu.zig").EmuThing;
        var wrapper = EmuThing.init(&cpu, &scheduler);
        var emulator = wrapper.interface(allocator);
        defer emulator.deinit();
        log.info("Ready to connect", .{});
        var server = Server.init(emulator) catch |e| exitln("failed to init gdb server: {}", .{e});
        defer server.deinit(allocator);
        log.info("Starting GDB Server Thread", .{});
        const thread = std.Thread.spawn(.{}, Server.run, .{ &server, allocator, &quit }) catch |e| exitln("gdb server thread crashed: {}", .{e});
        defer thread.join();
        gui.run(.Debug, .{
            .cpu = &cpu,
            .scheduler = &scheduler,
            .ch = ch.tx,
        }) catch |e| exitln("main thread panicked: {}", .{e});
    } else {
        var tracker = FpsTracker.init();
        // emu should start paused if there's no ROM to run
        if (paths.rom == null)
            ch.tx.send(.Pause);
        const thread = std.Thread.spawn(.{}, emu.run, .{ &cpu, &scheduler, &tracker, ch.rx }) catch |e| exitln("emu thread panicked: {}", .{e});
        defer thread.join();
        gui.run(.Standard, .{
            .cpu = &cpu,
            .scheduler = &scheduler,
            .ch = ch.tx,
            .tracker = &tracker,
        }) catch |e| exitln("main thread panicked: {}", .{e});
    }
 }
-pub fn handleArguments(allocator: Allocator, data_path: []const u8, result: *const clap.Result(clap.Help, &params, clap.parsers.default)) !FilePaths {
+fn handleArguments(allocator: Allocator, data_path: []const u8, result: *const clap.Result(clap.Help, &params, clap.parsers.default)) !FilePaths {
    const rom_path = romPath(result);
-    log.info("ROM path: {s}", .{rom_path});
+    log.info("ROM path: {?s}", .{rom_path});
    const bios_path = result.args.bios;
    if (bios_path) |path| log.info("BIOS path: {s}", .{path}) else log.warn("No BIOS provided", .{});
@@ -144,10 +201,10 @@ fn ensureConfigDirExists(config_path: []const u8) !void {
    try dir.makePath("zba");
 }
-fn romPath(result: *const clap.Result(clap.Help, &params, clap.parsers.default)) []const u8 {
+fn romPath(result: *const clap.Result(clap.Help, &params, clap.parsers.default)) ?[]const u8 {
    return switch (result.positionals.len) {
        0 => null,
        1 => result.positionals[0],
        0 => exitln("ZBA requires a path to a GamePak ROM", .{}),
        else => exitln("ZBA received too many positional arguments.", .{}),
    };
 }
--- a/src/platform.zig
+++ b/src/platform.zig
@@ -1,207 +1,146 @@
 const std = @import("std");
 const SDL = @import("sdl2");
 const gl = @import("gl");
 const zgui = @import("zgui");
 const emu = @import("core/emu.zig");
 const config = @import("config.zig");
 const imgui = @import("imgui.zig");
 const Apu = @import("core/apu.zig").Apu;
-const Arm7tdmi = @import("core/cpu.zig").Arm7tdmi;
+const Arm7tdmi = @import("arm32").Arm7tdmi;
 const Bus = @import("core/Bus.zig");
 const Scheduler = @import("core/scheduler.zig").Scheduler;
 const FpsTracker = @import("util.zig").FpsTracker;
 const Channel = @import("zba-util").Channel(emu.Message, 0x100);
 const KeyInput = @import("core/bus/io.zig").KeyInput;
 const gba_width = @import("core/ppu.zig").width;
 const gba_height = @import("core/ppu.zig").height;
-pub const sample_rate = 1 << 16;
+const GLuint = gl.GLuint;
 const GLsizei = gl.GLsizei;
 const SDL_GLContext = *anyopaque;
 const Allocator = std.mem.Allocator;
 pub const Dimensions = struct { width: u32, height: u32 };
 const default_dim: Dimensions = .{ .width = 1280, .height = 720 };
 pub const sample_rate = 1 << 15;
 pub const sample_format = SDL.AUDIO_U16;
-const default_title = "ZBA";
+const window_title = "ZBA";
 pub const Gui = struct {
    const Self = @This();
    const SDL_GLContext = *anyopaque; // SDL.SDL_GLContext is a ?*anyopaque
    const log = std.log.scoped(.Gui);
    // zig fmt: off
    const vertices: [32]f32 = [_]f32{
        // Positions        // Colours      // Texture Coords
         1.0, -1.0, 0.0,    1.0, 0.0, 0.0,  1.0, 1.0, // Top Right
         1.0,  1.0, 0.0,    0.0, 1.0, 0.0,  1.0, 0.0, // Bottom Right
        -1.0,  1.0, 0.0,    0.0, 0.0, 1.0,  0.0, 0.0, // Bottom Left
        -1.0, -1.0, 0.0,    1.0, 1.0, 0.0,  0.0, 1.0, // Top Left
    };
    const indices: [6]u32 = [_]u32{
        0, 1, 3, // First Triangle
        1, 2, 3, // Second Triangle
    };
    // zig fmt: on
    window: *SDL.SDL_Window,
    ctx: SDL_GLContext,
    title: []const u8,
    audio: Audio,
-    program_id: gl.GLuint,
+    state: imgui.State,
    allocator: Allocator,
-    pub fn init(title: *const [12]u8, apu: *Apu, width: i32, height: i32) !Self {
+    pub fn init(allocator: Allocator, apu: *Apu, title_opt: ?*const [12]u8) !Self {
        if (SDL.SDL_Init(SDL.SDL_INIT_VIDEO | SDL.SDL_INIT_EVENTS | SDL.SDL_INIT_AUDIO) < 0) panic();
        if (SDL.SDL_GL_SetAttribute(SDL.SDL_GL_CONTEXT_PROFILE_MASK, SDL.SDL_GL_CONTEXT_PROFILE_CORE) < 0) panic();
        if (SDL.SDL_GL_SetAttribute(SDL.SDL_GL_CONTEXT_MAJOR_VERSION, 3) < 0) panic();
        if (SDL.SDL_GL_SetAttribute(SDL.SDL_GL_CONTEXT_MAJOR_VERSION, 3) < 0) panic();
        const win_scale = @intCast(c_int, config.config().host.win_scale);
        const window = SDL.SDL_CreateWindow(
-            default_title,
+            window_title,
            SDL.SDL_WINDOWPOS_CENTERED,
            SDL.SDL_WINDOWPOS_CENTERED,
-            @as(c_int, width * win_scale),
+            default_dim.width,
-            @as(c_int, height * win_scale),
+            default_dim.height,
-            SDL.SDL_WINDOW_OPENGL | SDL.SDL_WINDOW_SHOWN,
+            SDL.SDL_WINDOW_OPENGL | SDL.SDL_WINDOW_SHOWN | SDL.SDL_WINDOW_RESIZABLE,
        ) orelse panic();
        const ctx = SDL.SDL_GL_CreateContext(window) orelse panic();
        if (SDL.SDL_GL_MakeCurrent(window, ctx) < 0) panic();
-        try gl.load(ctx, Self.glGetProcAddress);
+        gl.load(ctx, Self.glGetProcAddress) catch {};
-        if (SDL.SDL_GL_SetSwapInterval(@boolToInt(config.config().host.vsync)) < 0) panic();
+        if (SDL.SDL_GL_SetSwapInterval(@intFromBool(config.config().host.vsync)) < 0) panic();
-        const program_id = try compileShaders();
+        zgui.init(allocator);
        zgui.plot.init();
        zgui.backend.init(window, ctx, "#version 330 core");
        // zgui.io.setIniFilename(null);
        return Self{
            .window = window,
            .title = std.mem.sliceTo(title, 0),
            .ctx = ctx,
            .program_id = program_id,
            .audio = Audio.init(apu),
            .allocator = allocator,
            .state = try imgui.State.init(allocator, title_opt),
        };
    }
-    fn compileShaders() !gl.GLuint {
+    pub fn deinit(self: *Self) void {
-        // TODO: Panic on Shader Compiler Failure + Error Message
+        self.audio.deinit();
-        const vert_shader = @embedFile("shader/pixelbuf.vert");
+        self.state.deinit(self.allocator);
        const frag_shader = @embedFile("shader/pixelbuf.frag");
-        const vs = gl.createShader(gl.VERTEX_SHADER);
+        zgui.backend.deinit();
-        defer gl.deleteShader(vs);
+        zgui.plot.deinit();
        zgui.deinit();
-        gl.shaderSource(vs, 1, &[_][*c]const u8{vert_shader}, 0);
+        SDL.SDL_GL_DeleteContext(self.ctx);
-        gl.compileShader(vs);
+        SDL.SDL_DestroyWindow(self.window);
        SDL.SDL_Quit();
-        if (!shader.didCompile(vs)) return error.VertexCompileError;
+        self.* = undefined;
        const fs = gl.createShader(gl.FRAGMENT_SHADER);
        defer gl.deleteShader(fs);
        gl.shaderSource(fs, 1, &[_][*c]const u8{frag_shader}, 0);
        gl.compileShader(fs);
        if (!shader.didCompile(fs)) return error.FragmentCompileError;
        const program = gl.createProgram();
        gl.attachShader(program, vs);
        gl.attachShader(program, fs);
        gl.linkProgram(program);
        return program;
    }
-    // Returns the VAO ID since it's used in run()
+    const RunOptions = struct {
-    fn generateBuffers() struct { c_uint, c_uint, c_uint } {
+        ch: Channel.Sender,
-        var vao_id: c_uint = undefined;
+        tracker: ?*FpsTracker = null,
-        var vbo_id: c_uint = undefined;
+        cpu: *Arm7tdmi,
-        var ebo_id: c_uint = undefined;
+        scheduler: *Scheduler,
-        gl.genVertexArrays(1, &vao_id);
+    };
        gl.genBuffers(1, &vbo_id);
        gl.genBuffers(1, &ebo_id);
-        gl.bindVertexArray(vao_id);
+    const RunMode = enum { Standard, Debug };
-        gl.bindBuffer(gl.ARRAY_BUFFER, vbo_id);
+    pub fn run(self: *Self, comptime mode: RunMode, opt: RunOptions) !void {
-        gl.bufferData(gl.ARRAY_BUFFER, @sizeOf(@TypeOf(vertices)), &vertices, gl.STATIC_DRAW);
+        const cpu = opt.cpu;
        const tracker = opt.tracker;
        const ch = opt.ch;
-        gl.bindBuffer(gl.ELEMENT_ARRAY_BUFFER, ebo_id);
+        const bus_ptr: *Bus = @ptrCast(@alignCast(cpu.bus.ptr));
        gl.bufferData(gl.ELEMENT_ARRAY_BUFFER, @sizeOf(@TypeOf(indices)), &indices, gl.STATIC_DRAW);
-        // Position
+        const objects = opengl_impl.createObjects();
-        gl.vertexAttribPointer(0, 3, gl.FLOAT, gl.FALSE, 8 * @sizeOf(f32), @intToPtr(?*anyopaque, 0)); // lmao
+        defer gl.deleteBuffers(3, @as(*const [3]GLuint, &.{ objects.vao, objects.vbo, objects.ebo }));
        gl.enableVertexAttribArray(0);
        // Colour
        gl.vertexAttribPointer(1, 3, gl.FLOAT, gl.FALSE, 8 * @sizeOf(f32), @intToPtr(?*anyopaque, (3 * @sizeOf(f32))));
        gl.enableVertexAttribArray(1);
        // Texture Coord
        gl.vertexAttribPointer(2, 2, gl.FLOAT, gl.FALSE, 8 * @sizeOf(f32), @intToPtr(?*anyopaque, (6 * @sizeOf(f32))));
        gl.enableVertexAttribArray(2);
-        return .{ vao_id, vbo_id, ebo_id };
+        const emu_tex = opengl_impl.createScreenTexture(bus_ptr.ppu.framebuf.get(.Renderer));
-    }
+        const out_tex = opengl_impl.createOutputTexture();
        defer gl.deleteTextures(2, &[_]GLuint{ emu_tex, out_tex });
-    fn generateTexture(buf: []const u8) c_uint {
+        const fbo_id = try opengl_impl.createFrameBuffer(out_tex);
-        var tex_id: c_uint = undefined;
+        defer gl.deleteFramebuffers(1, &fbo_id);
        gl.genTextures(1, &tex_id);
        gl.bindTexture(gl.TEXTURE_2D, tex_id);
-        // gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_WRAP_S, gl.CLAMP_TO_EDGE);
+        // TODO: Support dynamically switching shaders?
-        // gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_WRAP_T, gl.CLAMP_TO_EDGE);
+        const prog_id = try opengl_impl.compileShaders();
        defer gl.deleteProgram(prog_id);
-        gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.NEAREST);
+        var win_dim: Dimensions = default_dim;
        gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.NEAREST);
        gl.texImage2D(gl.TEXTURE_2D, 0, gl.RGBA, gba_width, gba_height, 0, gl.RGBA, gl.UNSIGNED_INT_8_8_8_8, buf.ptr);
        // gl.generateMipmap(gl.TEXTURE_2D); // TODO: Remove?
        return tex_id;
    }
    pub fn run(self: *Self, cpu: *Arm7tdmi, scheduler: *Scheduler) !void {
        var quit = std.atomic.Atomic(bool).init(false);
        var tracker = FpsTracker.init();
        var buffer_ids = Self.generateBuffers();
        defer {
            gl.deleteBuffers(1, &buffer_ids[2]); // EBO
            gl.deleteBuffers(1, &buffer_ids[1]); // VBO
            gl.deleteVertexArrays(1, &buffer_ids[0]); // VAO
        }
        const vao_id = buffer_ids[0];
        const tex_id = Self.generateTexture(cpu.bus.ppu.framebuf.get(.Renderer));
        defer gl.deleteTextures(1, &tex_id);
        const thread = try std.Thread.spawn(.{}, emu.run, .{ &quit, scheduler, cpu, &tracker });
        defer thread.join();
        var title_buf: [0x100]u8 = undefined;
        emu_loop: while (true) {
            // Outside of `SDL.SDL_QUIT` below, the DearImgui UI might signal that the program
            // should exit, in which case we should also handle this
            if (self.state.should_quit) break :emu_loop;
            var event: SDL.SDL_Event = undefined;
            while (SDL.SDL_PollEvent(&event) != 0) {
                _ = zgui.backend.processEvent(&event);
                switch (event.type) {
                    SDL.SDL_QUIT => break :emu_loop,
                    SDL.SDL_KEYDOWN => {
                        // TODO: Make use of compare_and_xor?
                        const key_code = event.key.keysym.sym;
-                        var keyinput = cpu.bus.io.keyinput.load(.Monotonic);
+                        var keyinput: KeyInput = .{ .raw = 0x0000 };
                        switch (key_code) {
                            SDL.SDLK_UP => keyinput.up.unset(),
                            SDL.SDLK_DOWN => keyinput.down.unset(),
                            SDL.SDLK_LEFT => keyinput.left.unset(),
                            SDL.SDLK_RIGHT => keyinput.right.unset(),
                            SDL.SDLK_x => keyinput.a.unset(),
                            SDL.SDLK_z => keyinput.b.unset(),
                            SDL.SDLK_a => keyinput.shoulder_l.unset(),
                            SDL.SDLK_s => keyinput.shoulder_r.unset(),
                            SDL.SDLK_RETURN => keyinput.start.unset(),
                            SDL.SDLK_RSHIFT => keyinput.select.unset(),
                            else => {},
                        }
                        cpu.bus.io.keyinput.store(keyinput.raw, .Monotonic);
                    },
                    SDL.SDL_KEYUP => {
                        const key_code = event.key.keysym.sym;
                        var keyinput = cpu.bus.io.keyinput.load(.Monotonic);
                        switch (key_code) {
                            SDL.SDLK_UP => keyinput.up.set(),
@@ -214,44 +153,132 @@ pub const Gui = struct {
                            SDL.SDLK_s => keyinput.shoulder_r.set(),
                            SDL.SDLK_RETURN => keyinput.start.set(),
                            SDL.SDLK_RSHIFT => keyinput.select.set(),
                            SDL.SDLK_i => {
                                comptime std.debug.assert(sample_format == SDL.AUDIO_U16);
                                log.err("Sample Count: {}", .{cpu.bus.apu.sample_queue.len() / 2});
                            },
                            // SDL.SDLK_j => log.err("Scheduler Capacity: {} | Scheduler Event Count: {}", .{ scheduler.queue.capacity(), scheduler.queue.count() }),
                            SDL.SDLK_k => {},
                            else => {},
                        }
-                        cpu.bus.io.keyinput.store(keyinput.raw, .Monotonic);
+                        bus_ptr.io.keyinput.fetchAnd(~keyinput.raw, .Monotonic);
                    },
                    SDL.SDL_KEYUP => {
                        // TODO: Make use of compare_and_xor?
                        const key_code = event.key.keysym.sym;
                        var keyinput: KeyInput = .{ .raw = 0x0000 };
                        switch (key_code) {
                            SDL.SDLK_UP => keyinput.up.set(),
                            SDL.SDLK_DOWN => keyinput.down.set(),
                            SDL.SDLK_LEFT => keyinput.left.set(),
                            SDL.SDLK_RIGHT => keyinput.right.set(),
                            SDL.SDLK_x => keyinput.a.set(),
                            SDL.SDLK_z => keyinput.b.set(),
                            SDL.SDLK_a => keyinput.shoulder_l.set(),
                            SDL.SDLK_s => keyinput.shoulder_r.set(),
                            SDL.SDLK_RETURN => keyinput.start.set(),
                            SDL.SDLK_RSHIFT => keyinput.select.set(),
                            else => {},
                        }
                        bus_ptr.io.keyinput.fetchOr(keyinput.raw, .Monotonic);
                    },
                    SDL.SDL_WINDOWEVENT => {
                        if (event.window.event == SDL.SDL_WINDOWEVENT_RESIZED) {
                            log.debug("window resized to: {}x{}", .{ event.window.data1, event.window.data2 });
                            win_dim.width = @intCast(event.window.data1);
                            win_dim.height = @intCast(event.window.data2);
                        }
                    },
                    else => {},
                }
            }
-            // Emulator has an internal Double Buffer
+            var zgui_redraw: bool = false;
-            const framebuf = cpu.bus.ppu.framebuf.get(.Renderer);
+
-            gl.texSubImage2D(gl.TEXTURE_2D, 0, 0, 0, gba_width, gba_height, gl.RGBA, gl.UNSIGNED_INT_8_8_8_8, framebuf.ptr);
+            switch (self.state.emulation) {
                .Transition => |inner| switch (inner) {
                    .Active => {
                        ch.send(.Resume);
                        if (!config.config().host.mute) SDL.SDL_PauseAudioDevice(self.audio.device, 0);
                        self.state.emulation = .Active;
                    },
                    .Inactive => {
                        // Assert that double pausing is impossible
                        SDL.SDL_PauseAudioDevice(self.audio.device, 1);
                        ch.send(.Pause);
                        self.state.emulation = .Inactive;
                    },
                },
                .Active => {
                    const is_std = mode == .Standard;
                    if (is_std) ch.send(.Pause);
                    defer if (is_std) ch.send(.Resume);
                    // switch (mode) {
                    //     .Standard => blk: {
                    //         const limit = 15; // TODO: What should this be?
                    //         // TODO: learn more about std.atomic.spinLoopHint();
                    //         for (0..limit) |_| {
                    //             const message = channel.gui.pop() orelse continue;
                    //             switch (message) {
                    //                 .Paused => break :blk,
                    //                 .Quit => unreachable,
                    //             }
                    //         }
                    //         log.info("timed out waiting for emu thread to pause (limit: {})", .{limit});
                    //         break :skip_draw;
                    //     },
                    //     .Debug => blk: {
                    //         switch (channel.gui.pop() orelse break :blk) {
                    //             .Paused => unreachable, // only in standard mode
                    //             .Quit => break :emu_loop, // FIXME: gdb side of emu is seriously out-of-date...
                    //         }
                    //     },
                    // }
                    // Add FPS count to the histogram
                    if (tracker) |t| self.state.fps_hist.push(t.value()) catch {};
                    // Draw GBA Screen to Texture
                    {
                        gl.bindFramebuffer(gl.FRAMEBUFFER, fbo_id);
                        defer gl.bindFramebuffer(gl.FRAMEBUFFER, 0);
                        const buf = bus_ptr.ppu.framebuf.get(.Renderer);
                        gl.viewport(0, 0, gba_width, gba_height);
                        opengl_impl.drawScreenTexture(emu_tex, prog_id, objects, buf);
                    }
                    // FIXME: We only really care about locking the audio device (and therefore writing silence)
                    // since if nfd-zig is used the emu may be paused for way too long. Perhaps we should try and limit
                    // spurious calls to SDL_LockAudioDevice?
                    SDL.SDL_LockAudioDevice(self.audio.device);
                    defer SDL.SDL_UnlockAudioDevice(self.audio.device);
                    zgui_redraw = imgui.draw(&self.state, win_dim, out_tex, cpu);
                },
                .Inactive => zgui_redraw = imgui.draw(&self.state, win_dim, out_tex, cpu),
            }
            if (zgui_redraw) {
                // Background Colour
                const size = zgui.io.getDisplaySize();
                gl.viewport(0, 0, @intFromFloat(size[0]), @intFromFloat(size[1]));
                gl.clearColor(0, 0, 0, 1.0);
                gl.clear(gl.COLOR_BUFFER_BIT);
                zgui.backend.draw();
            }
            gl.useProgram(self.program_id);
            gl.bindVertexArray(vao_id);
            gl.drawElements(gl.TRIANGLES, 6, gl.UNSIGNED_INT, null);
            SDL.SDL_GL_SwapWindow(self.window);
            const dyn_title = std.fmt.bufPrintZ(&title_buf, "ZBA | {s} [Emu: {}fps] ", .{ self.title, tracker.value() }) catch unreachable;
            SDL.SDL_SetWindowTitle(self.window, dyn_title.ptr);
        }
-        quit.store(true, .Monotonic); // Terminate Emulator Thread
+        ch.send(.Quit);
    }
    pub fn deinit(self: *Self) void {
        self.audio.deinit();
        gl.deleteProgram(self.program_id);
        SDL.SDL_GL_DeleteContext(self.ctx);
        SDL.SDL_DestroyWindow(self.window);
        SDL.SDL_Quit();
        self.* = undefined;
    }
    fn glGetProcAddress(ctx: SDL.SDL_GLContext, proc: [:0]const u8) ?*anyopaque {
@@ -282,11 +309,6 @@ const Audio = struct {
        const device = SDL.SDL_OpenAudioDevice(null, 0, &want, &have, 0);
        if (device == 0) panic();
        if (!config.config().host.mute) {
            SDL.SDL_PauseAudioDevice(device, 0); // Unpause Audio
            log.info("Unpaused Device", .{});
        }
        return .{ .device = device };
    }
@@ -296,40 +318,9 @@ const Audio = struct {
    }
    export fn callback(userdata: ?*anyopaque, stream: [*c]u8, len: c_int) void {
-        const T = *Apu;
+        const apu: *Apu = @ptrCast(@alignCast(userdata));
        const apu = @ptrCast(T, @alignCast(@alignOf(T), userdata));
-        comptime std.debug.assert(sample_format == SDL.AUDIO_U16);
+        _ = SDL.SDL_AudioStreamGet(apu.stream, stream, len);
        const sample_buf = @ptrCast([*]u16, @alignCast(@alignOf(u16), stream))[0 .. @intCast(u32, len) / @sizeOf(u16)];
        var previous: u16 = 0x8000;
        for (sample_buf) |*sample| {
            if (apu.sample_queue.pop()) |value| previous = value;
            sample.* = previous;
        }
    }
 };
 const shader = struct {
    const Kind = enum { vertex, fragment };
    const log = std.log.scoped(.Shader);
    fn didCompile(id: gl.GLuint) bool {
        var success: gl.GLint = undefined;
        gl.getShaderiv(id, gl.COMPILE_STATUS, &success);
        if (success == 0) err(id);
        return success == 1;
    }
    fn err(id: gl.GLuint) void {
        const buf_len = 512;
        var error_msg: [buf_len]u8 = undefined;
        gl.getShaderInfoLog(id, buf_len, 0, &error_msg);
        log.err("{s}", .{std.mem.sliceTo(&error_msg, 0)});
    }
 };
@@ -337,3 +328,175 @@ fn panic() noreturn {
    const str = @as(?[*:0]const u8, SDL.SDL_GetError()) orelse "unknown error";
    @panic(std.mem.sliceTo(str, 0));
 }
 const opengl_impl = struct {
    // zig fmt: off
    const vertices: [32]f32 = [_]f32{
        // Positions        // Colours      // Texture Coords
         1.0, -1.0, 0.0,    1.0, 0.0, 0.0,  1.0, 1.0, // Top Right
         1.0,  1.0, 0.0,    0.0, 1.0, 0.0,  1.0, 0.0, // Bottom Right
        -1.0,  1.0, 0.0,    0.0, 0.0, 1.0,  0.0, 0.0, // Bottom Left
        -1.0, -1.0, 0.0,    1.0, 1.0, 0.0,  0.0, 1.0, // Top Left
    };
    const indices: [6]u32 = [_]u32{
        0, 1, 3, // First Triangle
        1, 2, 3, // Second Triangle
    };
    // zig fmt: on
    const Objects = struct { vao: GLuint, vbo: GLuint, ebo: GLuint };
    fn drawScreenTexture(tex_id: GLuint, prog_id: GLuint, ids: Objects, buf: []const u8) void {
        gl.bindTexture(gl.TEXTURE_2D, tex_id);
        defer gl.bindTexture(gl.TEXTURE_2D, 0);
        gl.texSubImage2D(gl.TEXTURE_2D, 0, 0, 0, gba_width, gba_height, gl.RGBA, gl.UNSIGNED_INT_8_8_8_8, buf.ptr);
        // Bind VAO, EBO. VBO not bound
        gl.bindVertexArray(ids.vao); // VAO
        defer gl.bindVertexArray(0);
        gl.bindBuffer(gl.ELEMENT_ARRAY_BUFFER, ids.ebo); // EBO
        defer gl.bindBuffer(gl.ELEMENT_ARRAY_BUFFER, 0);
        // Use compiled frag + vertex shader
        gl.useProgram(prog_id);
        defer gl.useProgram(0);
        gl.drawElements(gl.TRIANGLES, 6, gl.UNSIGNED_INT, null);
    }
    fn compileShaders() !GLuint {
        const vert_shader = @embedFile("shader/pixelbuf.vert");
        const frag_shader = @embedFile("shader/pixelbuf.frag");
        const vs = gl.createShader(gl.VERTEX_SHADER);
        defer gl.deleteShader(vs);
        gl.shaderSource(vs, 1, &[_][*c]const u8{vert_shader}, 0);
        gl.compileShader(vs);
        if (!shader.didCompile(vs)) return error.VertexCompileError;
        const fs = gl.createShader(gl.FRAGMENT_SHADER);
        defer gl.deleteShader(fs);
        gl.shaderSource(fs, 1, &[_][*c]const u8{frag_shader}, 0);
        gl.compileShader(fs);
        if (!shader.didCompile(fs)) return error.FragmentCompileError;
        const program = gl.createProgram();
        gl.attachShader(program, vs);
        gl.attachShader(program, fs);
        gl.linkProgram(program);
        return program;
    }
    // Returns the VAO ID since it's used in run()
    fn createObjects() Objects {
        var vao_id: GLuint = undefined;
        var vbo_id: GLuint = undefined;
        var ebo_id: GLuint = undefined;
        gl.genVertexArrays(1, &vao_id);
        gl.genBuffers(1, &vbo_id);
        gl.genBuffers(1, &ebo_id);
        gl.bindVertexArray(vao_id);
        defer gl.bindVertexArray(0);
        gl.bindBuffer(gl.ARRAY_BUFFER, vbo_id);
        defer gl.bindBuffer(gl.ARRAY_BUFFER, 0);
        gl.bindBuffer(gl.ELEMENT_ARRAY_BUFFER, ebo_id);
        defer gl.bindBuffer(gl.ELEMENT_ARRAY_BUFFER, 0);
        gl.bufferData(gl.ARRAY_BUFFER, @sizeOf(@TypeOf(vertices)), &vertices, gl.STATIC_DRAW);
        gl.bufferData(gl.ELEMENT_ARRAY_BUFFER, @sizeOf(@TypeOf(indices)), &indices, gl.STATIC_DRAW);
        // Position
        gl.vertexAttribPointer(0, 3, gl.FLOAT, gl.FALSE, 8 * @sizeOf(f32), null); // lmao
        gl.enableVertexAttribArray(0);
        // Colour
        gl.vertexAttribPointer(1, 3, gl.FLOAT, gl.FALSE, 8 * @sizeOf(f32), @ptrFromInt((3 * @sizeOf(f32))));
        gl.enableVertexAttribArray(1);
        // Texture Coord
        gl.vertexAttribPointer(2, 2, gl.FLOAT, gl.FALSE, 8 * @sizeOf(f32), @ptrFromInt((6 * @sizeOf(f32))));
        gl.enableVertexAttribArray(2);
        return .{ .vao = vao_id, .vbo = vbo_id, .ebo = ebo_id };
    }
    fn createScreenTexture(buf: []const u8) GLuint {
        var tex_id: GLuint = undefined;
        gl.genTextures(1, &tex_id);
        gl.bindTexture(gl.TEXTURE_2D, tex_id);
        defer gl.bindTexture(gl.TEXTURE_2D, 0);
        gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.NEAREST);
        gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.NEAREST);
        gl.texImage2D(gl.TEXTURE_2D, 0, gl.RGBA, gba_width, gba_height, 0, gl.RGBA, gl.UNSIGNED_INT_8_8_8_8, buf.ptr);
        return tex_id;
    }
    fn createOutputTexture() GLuint {
        var tex_id: GLuint = undefined;
        gl.genTextures(1, &tex_id);
        gl.bindTexture(gl.TEXTURE_2D, tex_id);
        defer gl.bindTexture(gl.TEXTURE_2D, 0);
        gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.NEAREST);
        gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.NEAREST);
        gl.texImage2D(gl.TEXTURE_2D, 0, gl.RGBA, gba_width, gba_height, 0, gl.RGBA, gl.UNSIGNED_INT_8_8_8_8, null);
        return tex_id;
    }
    fn createFrameBuffer(tex_id: GLuint) !GLuint {
        var fbo_id: GLuint = undefined;
        gl.genFramebuffers(1, &fbo_id);
        gl.bindFramebuffer(gl.FRAMEBUFFER, fbo_id);
        defer gl.bindFramebuffer(gl.FRAMEBUFFER, 0);
        gl.framebufferTexture(gl.FRAMEBUFFER, gl.COLOR_ATTACHMENT0, tex_id, 0);
        const draw_buffers: [1]GLuint = .{gl.COLOR_ATTACHMENT0};
        gl.drawBuffers(1, &draw_buffers);
        if (gl.checkFramebufferStatus(gl.FRAMEBUFFER) != gl.FRAMEBUFFER_COMPLETE)
            return error.FrameBufferObejctInitFailed;
        return fbo_id;
    }
    const shader = struct {
        const Kind = enum { vertex, fragment };
        const log = std.log.scoped(.Shader);
        fn didCompile(id: gl.GLuint) bool {
            var success: gl.GLint = undefined;
            gl.getShaderiv(id, gl.COMPILE_STATUS, &success);
            if (success == 0) err(id);
            return success == 1;
        }
        fn err(id: gl.GLuint) void {
            const buf_len = 512;
            var error_msg: [buf_len]u8 = undefined;
            gl.getShaderInfoLog(id, buf_len, 0, &error_msg);
            log.err("{s}", .{std.mem.sliceTo(&error_msg, 0)});
        }
    };
 };
--- a/src/util.zig
+++ b/src/util.zig
@@ -3,28 +3,9 @@ const builtin = @import("builtin");
 const config = @import("config.zig");
 const Log2Int = std.math.Log2Int;
-const Arm7tdmi = @import("core/cpu.zig").Arm7tdmi;
+const Arm7tdmi = @import("arm32").Arm7tdmi;
-// Sign-Extend value of type `T` to type `U`
+const Allocator = std.mem.Allocator;
 pub fn sext(comptime T: type, comptime U: type, value: T) T {
    // U must have less bits than T
    comptime std.debug.assert(@typeInfo(U).Int.bits <= @typeInfo(T).Int.bits);
    const iT = std.meta.Int(.signed, @typeInfo(T).Int.bits);
    const ExtU = if (@typeInfo(U).Int.signedness == .unsigned) T else iT;
    const shift_amt = @intCast(Log2Int(T), @typeInfo(T).Int.bits - @typeInfo(U).Int.bits);
    return @bitCast(T, @bitCast(iT, @as(ExtU, @truncate(U, value)) << shift_amt) >> shift_amt);
 }
 /// See https://godbolt.org/z/W3en9Eche
 pub inline fn rotr(comptime T: type, x: T, r: anytype) T {
    if (@typeInfo(T).Int.signedness == .signed)
        @compileError("cannot rotate signed integer");
    const ar = @intCast(Log2Int(T), @mod(r, @typeInfo(T).Int.bits));
    return x >> ar | x << (1 +% ~ar);
 }
 pub const FpsTracker = struct {
    const Self = @This();
@@ -55,17 +36,6 @@ pub const FpsTracker = struct {
    }
 };
 pub fn intToBytes(comptime T: type, value: anytype) [@sizeOf(T)]u8 {
    comptime std.debug.assert(@typeInfo(T) == .Int);
    var result: [@sizeOf(T)]u8 = undefined;
    var i: Log2Int(T) = 0;
    while (i < result.len) : (i += 1) result[i] = @truncate(u8, value >> i * @bitSizeOf(u8));
    return result;
 }
 /// Creates a copy of a title with all Filesystem-invalid characters replaced
 ///
 /// e.g. POKEPIN R/S to POKEPIN R_S
@@ -80,7 +50,7 @@ pub fn escape(title: [12]u8) [12]u8 {
 }
 pub const FilePaths = struct {
-    rom: []const u8,
+    rom: ?[]const u8,
    bios: ?[]const u8,
    save: ?[]const u8,
 };
@@ -123,6 +93,7 @@ pub const io = struct {
 pub const Logger = struct {
    const Self = @This();
    const FmtArgTuple = std.meta.Tuple(&.{ u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32 });
    buf: std.io.BufferedWriter(4096 << 2, std.fs.File.Writer),
@@ -181,8 +152,6 @@ pub const Logger = struct {
    }
 };
 const FmtArgTuple = struct { u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32 };
 pub const audio = struct {
    const _io = @import("core/bus/io.zig");
@@ -234,7 +203,7 @@ pub const audio = struct {
 /// Sets a quarter (8) of the bits of the u32 `left` to the value of u8 `right`
 pub inline fn setQuart(left: u32, addr: u8, right: u8) u32 {
-    const offset = @truncate(u2, addr);
+    const offset: u2 = @truncate(addr);
    return switch (offset) {
        0b00 => (left & 0xFFFF_FF00) | right,
@@ -248,11 +217,11 @@ pub inline fn setQuart(left: u32, addr: u8, right: u8) u32 {
 ///
 /// TODO: Support u16 reads of u32 values?
 pub inline fn getHalf(byte: u8) u4 {
-    return @truncate(u4, byte & 1) << 3;
+    return @as(u4, @truncate(byte & 1)) << 3;
 }
 pub inline fn setHalf(comptime T: type, left: T, addr: u8, right: HalfInt(T)) T {
-    const offset = @truncate(u1, addr >> if (T == u32) 1 else 0);
+    const offset: u1 = @truncate(addr >> if (T == u32) 1 else 0);
    return switch (T) {
        u32 => switch (offset) {
@@ -276,109 +245,47 @@ fn HalfInt(comptime T: type) type {
    return std.meta.Int(type_info.Int.signedness, type_info.Int.bits >> 1);
 }
-const Mutex = std.Thread.Mutex;
+/// Double Buffering Implementation
 pub const FrameBuffer = struct {
    const Self = @This();
-pub fn RingBuffer(comptime T: type) type {
+    layers: [2][]u8,
-    return struct {
+    buf: []u8,
-        const Self = @This();
+    current: u1 = 0,
        const Index = usize;
        const max_capacity = (@as(Index, 1) << @typeInfo(Index).Int.bits - 1) - 1; // half the range of index type
-        const log = std.log.scoped(.RingBuffer);
+    allocator: Allocator,
-        read: Index,
+    // TODO: Rename
-        write: Index,
+    const Device = enum { Emulator, Renderer };
-        buf: []T,
+    pub fn init(allocator: Allocator, comptime len: comptime_int) !Self {
        const buf = try allocator.alloc(u8, len * 2);
        @memset(buf, 0);
-        mutex: Mutex,
+        return .{
            // Front and Back Framebuffers
            .layers = [_][]u8{ buf[0..][0..len], buf[len..][0..len] },
            .buf = buf,
-        const Error = error{buffer_full};
+            .allocator = allocator,
        };
    }
-        pub fn init(buf: []T) Self {
+    pub fn reset(self: *Self) void {
-            std.mem.set(T, buf, 0);
+        @memset(self.buf, 0);
        self.current = 0;
    }
-            std.debug.assert(std.math.isPowerOfTwo(buf.len)); // capacity must be a power of two
+    pub fn deinit(self: *Self) void {
-            std.debug.assert(buf.len <= max_capacity);
+        self.allocator.free(self.buf);
        self.* = undefined;
    }
-            return .{ .read = 0, .write = 0, .buf = buf, .mutex = .{} };
+    pub fn swap(self: *Self) void {
-        }
+        self.current = ~self.current;
    }
-        pub fn push(self: *Self, left: T, right: T) Error!void {
+    pub fn get(self: *Self, comptime dev: Device) []u8 {
-            self.mutex.lock();
+        return self.layers[if (dev == .Emulator) self.current else ~self.current];
-            defer self.mutex.unlock();
+    }
-
+};
            try self._push(left);
            self._push(right) catch |e| {
                self.write -= 1; // undo the previous write;
                return e;
            };
        }
        pub fn pop(self: *Self) ?T {
            self.mutex.lock();
            defer self.mutex.unlock();
            return self._pop();
        }
        pub fn len(self: *Self) Index {
            self.mutex.lock();
            defer self.mutex.unlock();
            return self._len();
        }
        fn _push(self: *Self, value: T) Error!void {
            if (self.isFull()) return error.buffer_full;
            defer self.write += 1;
            self.buf[self.mask(self.write)] = value;
        }
        fn _pop(self: *Self) ?T {
            if (self.isEmpty()) return null;
            defer self.read += 1;
            return self.buf[self.mask(self.read)];
        }
        fn _len(self: *const Self) Index {
            return self.write - self.read;
        }
        fn isFull(self: *const Self) bool {
            return self._len() == self.buf.len;
        }
        fn isEmpty(self: *const Self) bool {
            return self.read == self.write;
        }
        fn mask(self: *const Self, idx: Index) Index {
            return idx & (self.buf.len - 1);
        }
    };
 }
 test "RingBuffer" {
    const Queue = RingBuffer(u8);
    var buf: [4]u8 = undefined;
    var queue = Queue.init(&buf);
    try queue.push(1, 2);
    try std.testing.expectEqual(@as(?u8, 1), queue.pop());
    try queue.push(3, 4);
    try std.testing.expectError(Queue.Error.buffer_full, queue.push(5, 6));
    try std.testing.expectEqual(@as(?u8, 2), queue.pop());
    try queue.push(7, 8);
    try std.testing.expectEqual(@as(?u8, 3), queue.pop());
    try std.testing.expectEqual(@as(?u8, 4), queue.pop());
    try std.testing.expectEqual(@as(?u8, 7), queue.pop());
    try std.testing.expectEqual(@as(?u8, 8), queue.pop());
    try std.testing.expectEqual(@as(?u8, null), queue.pop());
 }
Author	SHA1	Message	Date
Rekai Musuka	8b4faca80f	ci: re-enable zig master builds on CI	2023-07-17 01:11:57 -05:00
Rekai Musuka	f73b096d62	chore: update dependencies	2023-07-17 01:09:54 -05:00
Rekai Musuka	d4b7167e29	chore: simply some zig fmt builtin changes	2023-07-17 01:09:54 -05:00
Rekai Musuka	d96c9c01ff	chore: update to latest builtin syntax	2023-07-10 22:09:48 -05:00
Rekai Musuka	954fb279ad	chore: move cpu implementation to it's own module There's a decent amount of Hacks and TODO:s that need revisiting I should spend a bit of time cleaning up code 😔	2023-06-25 18:56:56 -05:00
Rekai Musuka	5b6650ef34	chore: update README.md	2023-06-21 18:30:19 -05:00
Rekai Musuka	10215d4e99	chore(config): switch toml library TODO: find a lib that can serialize Zig structs to TOML	2023-06-21 17:59:59 -05:00
Rekai Musuka	e8bc798120	feat(ui): add the option to choose the BIOS	2023-06-19 15:19:43 -05:00
Rekai Musuka	44818a4d5b	chore(ci): ensured shared libraries are uploaded w/ executable	2023-06-19 13:04:22 -05:00
Rekai Musuka	07d85628ac	chore(ci): try to enable macOS in CI	2023-06-19 12:34:38 -05:00
Rekai Musuka	a8cd510da6	chore: update depdendencies ZBA now specifically targets Zig v0.11.0-dev.3395+1e7dcaa3a	2023-06-19 12:34:38 -05:00
Rekai Musuka	3040a9f45c	fix: update to Zig v0.11.0-dev.3299+34865d693	2023-05-25 15:44:39 -05:00
Rekai Musuka	ccdc2cbad4	chore(ui): rewrite channel implementation	2023-05-23 22:48:58 -05:00
Rekai Musuka	16c3eceffd	fix(config): reimplement muting	2023-05-23 17:26:46 -05:00
Rekai Musuka	8f5a0cab9c	fix(ui): write silence to audio when emu is paused	2023-05-23 17:05:54 -05:00
Rekai Musuka	79514b0cd0	fix(input): make use of atomic rmw intrinsics when handling input	2023-05-23 03:07:05 -05:00
Rekai Musuka	a048263fd6	chore: make use of std.atomic.spinLoopHint()	2023-05-23 02:42:35 -05:00
Rekai Musuka	d9e09a9cbe	fix(ui): remove flickering on ui pause/timeout	2023-05-23 02:24:11 -05:00
Rekai Musuka	2b9a479b96	feat(ui): add timeout for gui spinloop	2023-05-23 02:23:50 -05:00
Rekai Musuka	21295b8d03	feat(ui): implement pausing	2023-05-23 01:39:06 -05:00
Rekai Musuka	89671f767e	chore: update dependencies	2023-05-21 11:30:59 -05:00
Rekai Musuka	a92598d17d	feat(platform): implement OS window resizing	2023-05-12 01:47:15 -05:00
Rekai Musuka	c677957725	chore: update min ver. to v0.11.0-dev.2934+1b432072b	2023-05-02 00:09:46 -05:00
Rekai Musuka	a5e636d9c5	chore(gui): namespace the majority of interactions w/ OpenGL	2023-04-25 00:32:03 -05:00
Rekai Musuka	f6527da948	fix: respond to change in GeneralPurposeAllocator's deinit fn signature	2023-04-24 21:50:49 -05:00
Rekai Musuka	53fb1d163b	fix(cpu): respond to latest changes to comptime semantics	2023-04-13 22:14:47 -05:00
Rekai Musuka	df005d7fb6	chore(build): update to latest zig changes	2023-04-13 22:14:31 -05:00
Rekai Musuka	3c619df3dc	fix(imgui): handle valid ROM titles which happen to be empty	2023-04-06 03:08:07 -05:00
Rekai Musuka	13f5e7a480	feat(gui): add palette viewer	2023-04-05 01:18:36 -05:00
Rekai Musuka	8519187d9b	chore(gui): add ability to close imgui windows also list dependencies (TODO: add hyperlinks)	2023-04-04 21:11:08 -05:00
Rekai Musuka	a66428f24e	chore: update dependencies	2023-04-02 21:05:45 -05:00
Rekai Musuka	1d8b21d6b4	fix: reimplement grabbing ROM title if provided via cmd arg	2023-03-27 16:22:07 -05:00
Rekai Musuka	b879c76510	chore: update zgui	2023-03-26 23:23:34 -05:00
Rekai Musuka	0dbba2fb9a	chore: update to 0.11.0-dev.2168+322ace70f	2023-03-26 23:23:34 -05:00
Rekai Musuka	49b0620c48	style(imgui): use orelse instead of if () \|\|	2023-03-17 11:34:38 -05:00
Rekai Musuka	a6a9e3ac72	chore(imgui): change size of histogram	2023-03-17 11:26:14 -05:00
Rekai Musuka	aeefff86f8	chore: update dependencies	2023-03-16 00:27:08 -05:00
Rekai Musuka	91aa98eef7	chore: copy array instead of calling memcpy	2023-03-11 00:30:34 -06:00
Rekai Musuka	f3b6c4f3fe	Merge branch 'ci-suffering'	2023-03-11 00:29:56 -06:00
Rekai Musuka	5aa5ac2a8b	ci: update github actions config	2023-03-11 00:09:14 -06:00
Rekai Nyangadzayi Musuka	b1827ccea0	Merge pull request 'Add a GUI to ZBA' (#7 ) from imgui into main Reviewed-on: #7	2023-03-11 03:18:14 +00:00
Rekai Musuka	2629d15e2f	feat: don't require path to ROM in CLI	2023-03-10 21:16:06 -06:00
Rekai Musuka	c7b62d3202	chore: dynamically update window title on ROM replace	2023-03-10 20:41:49 -06:00
Rekai Musuka	85ec9a84c4	chore: add screenshot to README.md	2023-03-10 19:37:28 -06:00
Rekai Musuka	5adbc354d6	feat: replace Gamepak	2023-03-10 02:50:31 -06:00
Rekai Musuka	f8477714ae	feat: implement resetting	2023-03-10 02:28:03 -06:00
Rekai Musuka	bd872ee1c0	fix: drop select atomics in favour of a thread-safe channel	2023-03-10 02:02:34 -06:00
Rekai Musuka	11eae091db	chore: introduce zba-util In an effort to reuse code between zba and zba-gdbstub, move common util code (like the SPSC Channel I implemented in this commit) in a new lib	2023-03-10 00:05:31 -06:00
Rekai Musuka	72b702cb21	fix: handle null GBA ROM titles when passing to imgui	2023-03-04 18:02:12 -06:00
Rekai Musuka	d985eac0fc	tmp: implement mechanisms for a emu reset fn (currently crashes)	2023-02-23 23:49:56 -06:00
Rekai Musuka	3fff4fd742	chore: move imgui-specific code to its own file	2023-02-23 18:25:05 -06:00
Rekai Musuka	e90d5a17ba	fix: ensure code builds + works the gdbstub branch got merged into main, rebasing on top of main led to a bunch of merge conflicts that had to be resolved. Unfortunately some things got missed, and this commit covers the immediate problems that the rebase caused	2023-02-23 17:27:42 -06:00
Rekai Musuka	54143332ab	chore: update for loop in RingBuffer impl	2023-02-23 17:27:42 -06:00
Rekai Musuka	baa3fb7905	chore: update gui libs to latest zig master	2023-02-23 17:27:42 -06:00
Rekai Musuka	57c7437f77	chore: add gui deps to README.md	2023-02-23 17:27:42 -06:00
Rekai Musuka	eef5a238a0	chore: update nfd-zig respond to build.zig changes in zig master	2023-02-23 17:27:42 -06:00
Rekai Musuka	6048458f9b	feat: implement menu bar + add file picker dep	2023-02-23 17:27:42 -06:00
Rekai Musuka	ff609c85ba	feat: show game title as imgui screen title	2023-02-23 17:27:42 -06:00
Rekai Musuka	3e98f4053a	chore: update zgui	2023-02-23 17:27:42 -06:00
Rekai Musuka	1d601dba39	feat: add scheduler ui	2023-02-23 17:27:42 -06:00
Rekai Musuka	a8fac5f3c6	feat: pause emu when UI reads emu state	2023-02-23 17:27:42 -06:00
Rekai Musuka	ae78588b80	feat: implement ui for register, interrupt	2023-02-23 17:27:42 -06:00
Rekai Musuka	fe6fc0e517	feat: add system information window	2023-02-23 17:27:42 -06:00
Rekai Musuka	3dcc4cb385	fix: update zgui to work with sdl2 vcpkg package	2023-02-23 17:27:42 -06:00
Rekai Musuka	5e94cbfbea	feat: add imgui support using zgui	2023-02-23 17:27:42 -06:00
Rekai Musuka	3b13102abb	ci: ensure that submodules are updated recursively	2023-02-23 17:26:59 -06:00
Rekai Nyangadzayi Musuka	7234ecab37	Merge pull request 'Implement a GDBSTUB Server' (#6 ) from gdbstub into main Reviewed-on: #6	2023-02-23 22:18:26 +00:00
Rekai Musuka	ddf4599162	chore: update dependencies	2023-02-23 02:45:59 -06:00
Rekai Musuka	01f5410180	feat: allow gui and gdbstub to run in parallel	2023-02-23 02:40:24 -06:00
Rekai Musuka	49706842af	fix: run more than just the CPU when stepping via gdb	2023-02-23 02:40:24 -06:00
Rekai Musuka	2798a90d83	chore: update zba-gdbstub to zig master	2023-02-23 02:40:24 -06:00
Rekai Musuka	518b868249	feat: respond to API changes for software bkpts	2023-02-23 02:40:24 -06:00
Rekai Musuka	755115660b	feat: allow gdb writes to certain mem regions	2023-02-23 02:40:24 -06:00
Rekai Musuka	6709f8c551	chore: update gdbstub lib	2023-02-23 02:40:24 -06:00
Rekai Musuka	1f3cdd9513	feat: add gdb support to zba	2023-02-23 02:40:24 -06:00
Rekai Musuka	65af6aa499	feat: add gdbstub library	2023-02-23 02:40:23 -06:00
Rekai Musuka	024151a5c1	chore: update to latest zig master	2023-02-22 14:46:46 -06:00
Rekai Musuka	e380af7056	chore: use a more efficient decimal->bcd algorithm This will not improve perf in any way because this code only gets run one time a second orz	2023-02-21 23:22:42 -06:00
Rekai Musuka	e654abfd1d	ci: don't assume any cpu features	2023-02-18 23:52:51 -06:00
Rekai Musuka	3510a6cff8	chore: drop macOS support CI is currently broken and I don't have the $$$ for macOS	2023-02-18 23:34:59 -06:00
Rekai Musuka	3fb351e762	chore: update SDL.zig	2023-02-17 00:05:42 -06:00
Rekai Musuka	a11b96b84e	chore: update minimum zig version	2023-02-07 17:52:16 -06:00
Rekai Musuka	c3be1c0a67	chore: update to latest zig build system I feel like I'm misusing addAnonymousModule	2023-02-07 16:00:06 -06:00
Rekai Musuka	fdf7399e52	chore: update README.md	2023-02-04 19:30:05 -06:00
Rekai Musuka	ed8155139a	chore: update CI	2023-02-04 18:22:50 -06:00
Rekai Musuka	8112b1aab2	chore: update zig to latest master	2023-02-04 18:15:10 -06:00
Rekai Musuka	c0e583d20d	fix: resolve off-by-one error in `str` addr when r15 is involved I seem to have made up this rule (I was thinking about when r15 was a source register). `rn` is the destination register.... whoops	2023-01-29 08:58:41 -06:00
Rekai Musuka	3f72367aaf	chore: remove .vscode folder	2023-01-21 19:01:44 -06:00
Rekai Musuka	c27f487bf0	chore: update dependencies	2023-01-16 02:57:50 -06:00
Rekai Musuka	ae3bb94036	fix(ppu): draw file select sprites in amazing mirror	2023-01-08 01:36:58 -06:00
Rekai Musuka	ddc54e2977	fix: ignore missing opengl proc addresses is this really a fix? the error never happens with mach-glfw	2023-01-01 15:56:18 -06:00
Rekai Musuka	ed49d7c460	chore: update lib/gl.zig	2023-01-01 13:41:53 -06:00
Rekai Musuka	59baa14bde	Merge branch 'main' of ssh://musuka.dev:2222/paoda/zba	2022-12-30 19:47:24 -06:00
Rekai Musuka	6bf1c44961	chore: refactor sprite rendering code	2022-12-30 19:47:01 -06:00
Rekai Musuka	94702b9b51	chore: update min zig version	2022-12-28 16:26:51 -06:00
Rekai Musuka	0f148507e4	fix: respond to `@addWithOverflow` changes in latest zig	2022-12-28 15:20:44 -06:00
Rekai Musuka	0cec779545	chore: misc style changes	2022-12-28 07:29:07 -06:00
Rekai Musuka	1ecbbc7d29	chore: cleanup BIOS struct init code	2022-12-27 06:42:06 -06:00
Rekai Musuka	caaa60d1a8	fix: rotate unaligned reads on BIOS open-bus	2022-12-27 06:25:12 -06:00
Rekai Musuka	39d50466c9	chore: update min zig version	2022-12-22 13:21:59 -06:00
Rekai Musuka	5a452d85c1	feat: update dependencies	2022-12-21 00:24:55 -06:00
Rekai Musuka	4326ae7a0a	fix: resolve broken affine bg in mario kart	2022-12-18 08:59:19 -04:00
Rekai Musuka	905c4448d0	feat: kind-of account for 1/4th of obj mode	2022-12-18 08:35:14 -04:00
Rekai Musuka	0de44835e5	fix: properly implement black/white blending for sprites There's unique rules to handle for BLDY w/r/t sprites, I didn't know about them (shown in bld_demo.gba). I'm sure I haven't ironed out every rule but bld_demo.gba now actually passes	2022-12-18 07:44:01 -04:00
Rekai Musuka	5aac04faf5	tmp: disable buggy window emulation I'd like to merge my affine sprite impl into main, which will require merging a lot of the rewrites I did in this branch. My plan is to merge the buggy ppu window impl to main, but keep it disabled. This is technically a regression but the current impl barely worked anyways so....	2022-12-17 09:58:15 -04:00
Rekai Musuka	f98a1700e0	feat: implement affine sprites	2022-12-17 09:47:10 -04:00
Rekai Musuka	acdb270793	chore: reimplement alpha blending	2022-12-16 22:16:37 -04:00
Rekai Musuka	4ceed382ed	chore(ppu): use @ptrCast in drawTextMode	2022-12-16 22:16:37 -04:00
Rekai Musuka	52ce4f3d20	chore(ppu): reimplement modes 3, 4, and 5	2022-12-16 22:16:37 -04:00
Rekai Musuka	c1c8cac6e4	style(ppu): move text mode drawing to unique fn	2022-12-16 22:16:37 -04:00
Rekai Musuka	be7a34f719	fix(window): proper inRange impl for window window wrap now works (it's pretty slow though?)	2022-12-16 22:16:37 -04:00
Rekai Musuka	f7a94634f9	chore: improve readability of sprite drawing code a bit	2022-12-16 22:16:37 -04:00
Rekai Musuka	7d4ab6db2c	style: remove unused imports	2022-12-16 22:16:37 -04:00
Rekai Musuka	0a78587d8e	chore: dont allocate not-small ?Sprite array on stack use memset like most other allocations in this emu	2022-12-16 22:16:37 -04:00
Rekai Musuka	b753ceef8e	chore: move FrameBuffer struct to util.zig	2022-12-16 22:16:37 -04:00
Rekai Musuka	8963fe205b	chore: move OAM, PALRAM and VRAM structs to separate files	2022-12-16 22:16:37 -04:00
paoda	e906506e16	fix: 8-bit writes to WIN PPU registers Advance Wars depends on these registers similar to Mario Kart's 8-bit writes to Affine Background registers:	2022-12-16 22:16:37 -04:00
Rekai Musuka	3195a45e3d	chore: refactor window	2022-12-16 22:16:37 -04:00
Rekai Musuka	6aad911985	chore: crude background window impl (no affine)	2022-12-16 22:16:37 -04:00
Rekai Musuka	e3b45ef794	chore: rename function (misspelt until now somehow)	2022-12-16 22:16:37 -04:00
Rekai Musuka	8e1a539e70	chore: debug read takes advantage of fastmem deduplicate slowmem backup read handler	2022-12-15 23:18:54 -04:00
Rekai Musuka	63fa972afa	chore: update dependencies in response to zig master deprecations	2022-12-14 22:57:51 -04:00